AREAS OF ACTIVITY - Chemical Sciences
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carbon
catalysis
catalyst
chemical
complex
compound
computational
design
development
dynamic
electron
energy
functional
heterogeneous
hybrid
inorganic
interaction
magnetic
material
mechanism
metal
method
microscopy
molecular
molecule
nanomaterials
new
organic
organometallic
other
physical
polymer
process
property
quantum
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science
solid
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state
structural
structure
study
supramolecular
surface
synthesis
synthetic
technique
theoretical
theory
use
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AREAS OF ACTIVITY - Chemical Sciences
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activation
- Activation of small molecules by metal centres
- Activation of C-H bonds by MnO porphyrine complexes
- Activation of inert bonds (CH and C-F) by transition metal complexes
- Activation of molecular oxygen and other oxygen donors
- C-H activation
- C-H bond activation/functionalisation
- Catalytic activation of alkynes
- Computational studies of dihydrogen transfer reactions, activation of N2
- Electro-catalysts for green H2 production, CO2 valorization, N2 activation and H2O2 production
- Electrocatalytic activation and valorization of small molecules
- Green Chemistry : C-H activation, Cycloisomerizations reactions
- Methane Activation
- Molecular electrochemistry in activation by electron-transfer, mechanistic studies and establishment of redox potential-structure relationships
- Small molecule activation, catalysis
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analysis
- Analysis and interpretation of optical, vibrational, and magnetic resonances spectroscopies
- Analysis of DNA/RNA lesion processes by nucleotide analogues, tracers and high end mass spectrometry
- Analysis of NMR chemical shift and relation with reactivity and properties
- Chemical analysis of epigenetic modifications and processes
- Chemical instrumentation and instrumental analysis
- Composition analysis of nanoparticles by EDS and EELS spectrum imaging
- Data analysis
- Environmental, biomedical and pharmaceutical analysis
- Mechanistic and kinetic analysis of electrochemical reaction processes
- Molecular orbitals and NBO analysis
- Multivariate analysis
- Phytochemical analysis
- Solid state structural analysis techniques, low temperature techniques
- Superresolution optical mapping of DNA for microbiome analysis
- Synthesis and structural analysis of glycopeptides
- instrumental microscopic analysis with ion, electron and laser beam techniques and synchrotron X-ray sources
- ultratrace speciation analysis with hyphenated techniques
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application
- 2D carbon-rich conjugated polymers for electronic and optoelectronic applications
- Antibacterial applications in medicine
- Application of mathematics
- Application of new techniques to investigate important industrial catalysts under realistic conditions
- Applications in organic synthesis of Pd-water-soluble catalysts
- Applications of coordination chemistry in catalysis, medicine, ion-exchange, surface chemistry
- Applications of hybrids
- Biodegradable polymers: monomers, catalytic systems, applications
- Biofunctionalisation of nanomaterials for biomedical applications
- Carbon nanoforms for bio-medical applications: Infections by emergent viruses
- Characterisation and application of pulsed laser ablation processes
- Chemical applications of supercritical fluids, with particular emphasis on Green Chemistry
- Chiral induced spin selectivity for explaining long range electron transfer in biology, catalysis and for spintronic applications
- Coatings for antimicrobial applications
- Conjugated organic, organoboron and organometallic materials for applications in linear and nonlinear optics, organic electronics, bioimaging, photodynamic therapy, and sensing of biomolecules
- Design and application of methods combining quantum mechanics and molecular mechanics
- Development and application of laser based plasma diagnostic methods
- Development and application of new strategies and techniques for structure determination from powder X-ray diffraction data
- Dynamics in phase space, including the application of information theory
- Energy applications
- Fundamentals and applications of X-ray dichroism and X-ray birefringence
- Gas storage applications in medicine
- Graphene Chemistry and Applications
- Homogeneous catalysis: Transition metals. Application to fine chemistry.
- In situ and operando microscopy and spectroscopy for catalysis applications
- Magnetic systems for high-frequency electronic applications
- Materials chemistry for clean energy applications
- Medicinal applications
- Metal nanoparticles: Stabilization and characterization. Application in catalysis.
- Metal complexes for imaging applications
- Methods and applications in organic chemistry
- Nanoparticles for catalytic applications
- Organic Bioelectronics: biosensors and biomedical applications at the Point of Care
- Organic neuromorphic devices: harnessing ion-pi interaction and its dynamics for sensing applications
- Polymer Dissolution: microelectronics and optical applications
- Preparation and characterization of nanosized semiconductors for photochemical, environmental and sensing applications
- Surfactant aggregation, adsorption and applications
- Synthesis and applications of functionalized electron-conducting polymer films
- Synthesis and bio-medical applications of tumor-targeting peptidomimetics and conjugates
- Synthesis of chiral phosphine and applications, Asymmetric catalysis
- Synthesis of conducting polymer/inorganic particles nanocomposites and their applications for organic catalysis and sensoring
- Synthesis, characterization and catalytic application of supported noble metal nanoparticles
- Synthesis, characterization, modification and application of Carbon Nanotubes
- Synthesis, characterization, modification and application of Inorganic Nanotubes
- Zeolites and mesoporous silica and their use in biomedical applications.
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asymmetric
- Asymmetric catalysis
- Asymmetric hydrogenation reactions, Synthesis of Fragrances, Dynamic Kinetic Resolution
- Asymmetric synthesis
- Asymmetric synthesis
- Asymmetric synthesis involving heteroatoms (S, P, N, I)
- Asymmetric synthesis using sulfoxides
- Influence of symmetry in asymmetric reactions.
- Synthesis of chiral phosphine and applications, Asymmetric catalysis
- Zeolite and asymmetric catalysis
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battery
- All kinds of batteries (Li, Li-ion, Li-oxygen, Li-S, Na-ion, Mg, Lead-Acid, Al-air)
- Batteries
- Batteries
- Batteries and supercapacitors
- Batteries and supercapacitors
- Battery chemistry
- Battery chemistry
- Electrode materials for lithium-ion batteries
- High-Energy-Density Flow Batteries
- Lithium-ion batteries
- Nanomaterials, Materials science, Superconductivity, Molecular electronics, Lithium polymer batteries
- Solid electrolytes for rechargeable batteries
- Supercapacitors, batteries, photvoltaic cells, light-emitting diodes, transitors, senors, and actuators
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biology
- Biology and nanomedicine
- Chemical Biology
- Chemical biology
- Chemical biology of nucleic acids and the genome
- Chiral induced spin selectivity for explaining long range electron transfer in biology, catalysis and for spintronic applications
- Molecular biology
- NMR spectroscopy in chemistry and biology
- Nanoparticles in biology
- Physical biology of the cell
- Structural biology
- Supramolecular medicine and chemical biology
- Synthetic Biology
- Synthetic biology
- ethology, ecology and evolutionary biology
-
carbon
- Activated carbons, composites, carbons doped by nitrogen & oxygen
- Bottom-up synthesis of carbon nanostructures and graphene nanoribbons
- Carbon Nanotubes Technologies
- Carbon capture
- Carbon capture and use (CCU)
- Carbon capture and utilisation
- Carbon dioxide Capture and Storage
- Carbon dioxide Capture and Use
- Carbon dioxide copolymerization
- Carbon dioxide utilization
- Carbon dots
- Carbon nanoforms for bio-medical applications: Infections by emergent viruses
- Carbon nanoscience and nanotechnology
- Carbon nanostructures for Nanoscience and Nanotechnology
- Carbon nanotube growth and devices
- Carbon nanotubes (modification and characterization)
- Carbon nanotubes, graphene, adamantane and other 2D materials
- Carbon nanotubes, nanotextured carbons
- Catalytic oxidation of carbon monoxide over platinum (catalytic converter)
- Conversion of carbon dioxide
- Graphenes and carbon materials
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Photoreduction of carbon dioxide
- Study of negative ions, stability, reactivity and characterization of carbon chains anions
- Supramolecular Chemistry of Carbon Nanoforms. Concave-convex Supramolecular Interactions
- Synthesis, characterization, modification and application of Carbon Nanotubes
- Synthetic molecular chiral carbon nanostructures
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catalysis
- Acid-base catalysis
- Applications of coordination chemistry in catalysis, medicine, ion-exchange, surface chemistry
- Asymmetric catalysis
- Bioinspired catalysis
- Catalysis
- Catalysis
- Catalysis (metathesis, C-C coupling, oxidation)
- Catalysis and catalytic processes
- Catalysis and gas separation in porous materials
- Catalysis and metal-mediated synthesis towards sustainability
- Catalysis as a key methodology for the sustainable production of high added-value compounds
- Catalysis chemistry
- Catalysis of Destruction of pollutants
- Catalysis of organic reactions
- Catalysis, Metal Organic Chemistry, Elementary reactions in Chemistry and Physics
- Chemical kinetics and catalysis
- Chiral induced spin selectivity for explaining long range electron transfer in biology, catalysis and for spintronic applications
- Computational heterogeneous catalysis, especially for micro-porous and oxide materials;
- Computational homogeneous catalysis
- Coordination Chemistry and Catalysis
- Electro and photo catalysis
- Electro-/photo-chemistry and catalysis
- Electrochemical catalysis
- Electron catalysis
- Electrophilic catalysis of the oxy-Cope reaction.Transition metal catalysis
- Enantioselective catalysis
- Enantioselective catalysis
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Environmental Catalysis
- Experimental research on plasma catalysis for the conversion of greenhouse gases into value-added chemicals
- Heterogeneous catalysis
- Heterogeneous catalysis
- Heterogeneous catalysis & kinetics
- Homogeneous Catalysis (Borylations including C-H and C-X bond functionalization and addition reactions,coupling reactions)
- Homogeneous catalysis
- Homogeneous catalysis by complexes of rhodium, iridium, ruthenium and osmium
- Homogeneous catalysis using Fe, Pd, Ru, Rh, Ir, Pt, Au
- Homogeneous catalysis: Transition metals. Application to fine chemistry.
- Homogeneous transition metal catalysis
- Homogenous catalysis
- Hybrid materials for catalysis
- In situ and operando microscopy and spectroscopy for catalysis applications
- Inorganic chemistry, heterogeneous catalysis
- Magnetic resonance and catalysis
- Mechanistic and kinetic study of heterogenous catalysis
- Metal nanoparticles: Stabilization and characterization. Application in catalysis.
- Metal oxide chemistry: preparation and characterisation of innovative materials for catalysis and photocatalysis
- Microwave catalysis
- Modeling catalysis and spectroscopy in molecular systems
- Molecular mechanisms in heterogeneous catalysis
- Multiscale study of catalysis
- Nanoparticle catalysis
- Nanostructured catalysis
- Nanostructured materials for heterogeneous catalysis
- Organometallic chemistry and homogeneous catalysis
- Organometallic electrophilic catalysis (Au, Pt, Ir, Ag)
- Oxidative Carbene catalysis using tempo
- Phase Transfer Catalysis (PTC)
- Photoelectrochemical catalysis
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Radical Chemistry and Photoredox catalysis
- Radical chemistry, Single Electron Transfer (SET) catalysis
- Selective and total oxidation catalysis
- Single atom catalysis
- Small molecule activation, catalysis
- Solid catalysis in particular zeolites
- Synthesis of chiral phosphine and applications, Asymmetric catalysis
- Synthesis of conducting polymer/inorganic particles nanocomposites and their applications for organic catalysis and sensoring
- Thermal catalysis
- Zeolite and asymmetric catalysis
- homogeneous catalysis
- homogeneous catalysis with earth abundant rare earth complexes
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catalyst
- Advanced catalysts for methane catalytic combustion
- Application of new techniques to investigate important industrial catalysts under realistic conditions
- Applications in organic synthesis of Pd-water-soluble catalysts
- Aromatic Metal Clusters (Pd, Pt, Ru, Rh) and their use as new catalysts
- Catalyst immobilization
- Catalysts for the reduction of nitrogen oxides under oxidizing conditions
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Design and Preparation of chiral Ruthenium/ Iridium Catalysts
- Development of conceptionally new catalysts
- Electronic properties of metal catalysts
- Electronic structure of catalysts based upon transition metal oxides
- Heterogeneous catalysts
- Hibrid organic-inorganic catalysts
- High angle annular dark field imaging of catalyst materials
- Homogeneous catalysts
- Homogeneous metal catalysts
- Hydrotalcites s as catalysts of hydrogenation
- Mesoporous materials as catalysts
- Microporous materials as catalysts
- Molecularly-defined catalysts
- New catalysts for the production and purification of hydrogen
- Physical techniques of catalysts and catalytic reaction characterization
- Polymer-supported catalysts
- Porous materials, zeolites and metal oxides catalysts
- Rational design of catalysts
- Structural characterisation of oxide-on-oxide catalyst structures
- Structure and property of catalysts
- Supported gold catalysts for CO oxidation
- Supported gold single atom catalysts for vinyl monomer production
- Supported gold-palladium alloy catalysts for direct H2O2 production
- Synthesis and assembly of catalysts and functional materials
- Systems connected to the development of sustainable (green) chemistry : Design/applications of Pd-water-soluble catalysts
- Vanadium phosphorus oxide catalysts for maleic anhydride production
- studies on model catalysts
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cell
- Active materials to be used in solid oxides fuel cells
- Artificial cell research
- Biofuel cells
- Cell cultures
- Dye-sensitized and perovskite solar cells
- Fuel cells
- Fuel cells
- Hydrogen and fuel cells
- Origin of life - synthetic cell
- Perovskite solar cell materials
- Physical biology of the cell
- Solar cells
- Supercapacitors, batteries, photvoltaic cells, light-emitting diodes, transitors, senors, and actuators
- Theory of transport processes in advanced flow cells
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characterization
- Advanced characterization methods
- Catalytic Site Characterization
- Characterization methods
- Dynamic characterization of peptides and proteins
- In-situ characterization of nanomaterials
- Metal nanoparticles: Stabilization and characterization. Application in catalysis.
- Nanoparticles characterization
- Organization and characterization of molecules on surfaces and hybrid nanostructures
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Physical techniques of catalysts and catalytic reaction characterization
- Preparation and characterization of nanosized semiconductors for photochemical, environmental and sensing applications
- Processing and characterization of nanocomposites
- Structural and operando characterization of organic semiconductors
- Study of negative ions, stability, reactivity and characterization of carbon chains anions
- Synthesis and characterization of materials
- Synthesis, characterization and catalytic application of supported noble metal nanoparticles
- Synthesis, characterization and study of mononuclear magnetic complexes, bidimensional frameworks, supramolecular systems
- Synthesis, characterization, modification and application of Carbon Nanotubes
- Synthesis, characterization, modification and application of Inorganic Nanotubes
- Three-dimensional characterization of nanomaterials
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chemical
- Analysis of NMR chemical shift and relation with reactivity and properties
- Chemical Biology
- Chemical Medicine
- Chemical Processes
- Chemical analysis of epigenetic modifications and processes
- Chemical applications of supercritical fluids, with particular emphasis on Green Chemistry
- Chemical biology
- Chemical biology of nucleic acids and the genome
- Chemical bonding
- Chemical crystallography
- Chemical data sciences
- Chemical education
- Chemical energy conversion
- Chemical engineering
- Chemical engineering in the field of multiphase gas-liquid-solid catalytic reactors
- Chemical instrumentation and instrumental analysis
- Chemical investigations of biomineralization
- Chemical kinetics and catalysis
- Chemical mechanism
- Chemical physics
- Chemical physics
- Chemical plastic recycling
- Chemical processes on solid surfaces
- Chemical reaction engineering
- Chemical reaction kinetics in confined systems
- Chemical reactivity
- Chemical sensors
- Chemical synthesis
- Chemical synthesis of nanomaterials
- Chemical technology
- Chemical vapour deposition- APCVD
- Continuous photo-, electro- and thermal-chemistry for chemical manufacture
- Design of descriptors for chemical processes
- Development of novel quantum chemical methods for strongly correlated systems
- Development of quantum chemical methods and programs
- Experimental research on plasma catalysis for the conversion of greenhouse gases into value-added chemicals
- Growth of thin film diamond by chemical vapour deposition methods
- New materials with novel electronic, geometric and chemical properties
- On-Surface chemical reactions
- Quantum-chemical calculation of NMR chemical shifts
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Solid-state NMR spectroscopy, particularly the development of new techniques for in-situ studies of chemical processes
- Supramolecular medicine and chemical biology
- Sustainable chemical processes
- Sustainable energy and chemical processes
- Theory of chemical processes (catalysis, chemical kinetics, reactivity)
- Velocity map imaging of chemical dynamics
-
chiral
- Chiral dendrimers
- Chiral induced spin selectivity for explaining long range electron transfer in biology, catalysis and for spintronic applications
- Chiral phases
- DNA-supramolecular structures with small as well as large molecules: chiral substitution-inert metal complexes and peptide nucleic acids
- Design and Preparation of chiral Ruthenium/ Iridium Catalysts
- Electron crystallography for determining the handedness of chiral zeolite nano-crystals
- Investigations of chiral recognition mechanisms
- Organometallic Chemistry: Synthesis and reactivity. Design and preparation of modular ligands, in particular chiral ones.
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Separation science, incl. chiral separations
- Synthesis of chiral phosphine and applications, Asymmetric catalysis
- Synthetic molecular chiral carbon nanostructures
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cluster
- Aerosol and molecular cluster science
- Aromatic Metal Clusters (Pd, Pt, Ru, Rh) and their use as new catalysts
- Cluster and Helium nanodroplets
- Cluster chemistry
- Gas phase studies of fullerenes and atomic clusters
- Metal carbonyl clusters
- Metal clusters and nanoparticles
- Molecular architecture, cluster chemistry and polymetallic reactivity
- Molecular clusters
- New synthetic approaches to achieve 3D aromatic Boron cluster derivatives
- Non-covalent metal-metal interactions and their nano-assemblies, clusters and aggregates
- Novel cluster crystals synthesized in the regular pores of zeolites
- Quantum mechanical studies of reaction mechanisms on surfaces and in clusters
- Reaction dynamics and mechanism in large systems including clusters and in solution
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Spectroscopy of metal clusters confined in porous materials
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complex
- Activation of C-H bonds by MnO porphyrine complexes
- Activation of inert bonds (CH and C-F) by transition metal complexes
- Architecture vs. function relationship in complex and multicomponent supramolecular materials
- Carbene complexes
- Carbon-rich metal complexes
- Chemistry of complex systems
- Complex fluids dynamics
- Coordination chemistry, complexes
- DNA-supramolecular structures with small as well as large molecules: chiral substitution-inert metal complexes and peptide nucleic acids
- Development of a multidisciplinary field, called bioorganometallic chemistry, dedicated to the synthesis and study of biologically-interesting organometallic complexes
- Development of complex catalytic systems with enzyme-like behavior
- Development of paramagnetic metal complexes as potential contrast agents in Magnetic Resonance Imaging
- Dihydrogen complexes
- Electronic structure of metal complexes
- First structure solution of a complex zeolite by electron crystallography
- High-Oxidation-State transition-metal complexes
- Homogeneous catalysis by complexes of rhodium, iridium, ruthenium and osmium
- Lanthanide complexes
- Magnetic coupling in ionic solids, inorganic complexes and organic radicals
- Metal complexes for diagnostics and molecular imaging
- Metal complexes for imaging applications
- Metal complexes of functional enolates
- Metal-Carbene, -vinylidene, -allenylidene complexes
- Multi-dimensional polymers with complex shape-persistent architectures
- Non-covalent synthesis of complex molecular systems
- Organometallic Ruthenium complexes
- Organometallic alkane & noble gas complexes
- Out-of-equilibrium complex systems
- Photophysics and photochemistry of metal complexes
- Preparation, structure and reactivity of organometallic and coordination complexes
- Spectroscopic properties of complex systems and their reactivity
- Spectroscopy with polarized light (flow dichroism) addressing biomolecular structures, e.g. 3D structure of DNA-recombinase complex in solution
- Synthesis, characterization and study of mononuclear magnetic complexes, bidimensional frameworks, supramolecular systems
- homo- and heteropolynuclear complexes
- homogeneous catalysis with earth abundant rare earth complexes
- magnetic properties of polymetallic complexes
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compound
- Bioactive compounds
- Biologically active natural compounds
- Catalysis as a key methodology for the sustainable production of high added-value compounds
- Chemistry of polynuclear coordination compounds:\\
- Controlling crystal growth and transport processes in solid inclusion compounds
- Coordination compounds
- Crystal engineering of coordination compounds
- Electronic structure and spectroscopy of small metallic compounds
- Fluoroorganic compounds
- Fundamentals of solid inclusion compounds: incommensurate structures and dynamic properties
- Magnetic and electric interactions in coordination compounds and magnetic materials
- Organometallic compounds
- Synthesis of biologically active compounds: alkaloids, ambruticine, β-lactams, sulfobacine,dolastatine
- Synthesis of metal compounds
- Synthesis of natural products and/or biologically active compounds.
- X-ray crystallography of organic compounds
- compounds with elements of low oxidation states
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computational
- Applied computational chemistry
- Computational Materials Chemistry
- Computational Materials Science
- Computational and theoretical electrochemistry
- Computational biomaterials
- Computational biomedicine
- Computational chemistry
- Computational chemistry
- Computational chemistry and biochemistry
- Computational chemistry for the study of organometallic species
- Computational design of novel materials and molecular systems for energy-related challenges
- Computational heterogeneous catalysis, especially for micro-porous and oxide materials;
- Computational homogeneous catalysis
- Computational physics
- Computational prediction of properties of organic crystals
- Computational spectroscopy
- Computational studies of d0 alkylidene Schrock olefin metathesis reactions
- Computational studies of dihydrogen transfer reactions, activation of N2
- Computational studies of metal hydrides (prediction of structures, properties NMR, reactivity)
- Computational studies of structures, electronic structures and reaction pathways
- Computational study of systems in homogeneous phases
- Theoretical and Computational Molecular Sciences
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conversion
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Bio-inspired and biomimetic electrode materials for sensing and energy conversion
- Biomass conversion
- Biomass conversion and organic synthesis
- Biomass conversion techniques
- Catalytic studies involving (hydro-)isomerisation of hydrocarbons, selective hydrogenations, aldol-condensation, synthesis gas conversion (paraffins, olefins and alcohols) and biomass conversions
- Chemical energy conversion
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Conversion of carbon dioxide
- Energy conversion
- Energy conversion (fuel cells)
- Energy conversion and storage
- Energy harvesting and conversion
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Experimental research on plasma catalysis for the conversion of greenhouse gases into value-added chemicals
- Materials Science of electrocatalytic energy storage and conversion
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Renewable energy conversion
- Solar energy conversion
- Solar energy harvesting and conversion
- photochemical solar energy conversion
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coordination
- Applications of coordination chemistry in catalysis, medicine, ion-exchange, surface chemistry
- Bifunctional ligands (ambiphilic ligands, non-innocent ligands) and coordination chemistry
- Chemistry of polynuclear coordination compounds:\\
- Coordination Chemistry
- Coordination Chemistry and Catalysis
- Coordination chemistry
- Coordination chemistry of transition metals
- Coordination chemistry of transition-metal ions
- Coordination chemistry, complexes
- Coordination compounds
- Crystal engineering of coordination compounds
- Magnetic and electric interactions in coordination compounds and magnetic materials
- Organometallic and coordination chemistry
- Porous Coordination Polymers
- Preparation, structure and reactivity of organometallic and coordination complexes
- Synthesis of anionic thioether and phosphine ligands and their coordination chemistry
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crystal
- 2D and 3D-colloid crystals (methods for fabrication and optical properties)
- Computational prediction of properties of organic crystals
- Controlling crystal growth and transport processes in solid inclusion compounds
- Crystal engineering
- Crystal engineering of coordination compounds
- Crystal structure prediction
- Crystal structure solution
- Fluoroarene-arene interactions in crystal engineering and liquid crystal phase behavior
- Molecular crystals
- New methods for structure determination of mesoporous crystals by Electron Microscopy
- Novel cluster crystals synthesized in the regular pores of zeolites
- Organic crystal structure prediction
- Polymer liquid crystals
-
crystallography
- 3D Electron crystallography
- Aperiodic Crystallography
- Chemical crystallography
- Crystallography
- Development of the new technique of Gas Adsorption Crystallography
- Electron crystallography for determining the handedness of chiral zeolite nano-crystals
- First structure solution of a complex zeolite by electron crystallography
- High-pressure crystallography
- NMR Crystallography
- Structure solution and refinement using electron crystallography
- X-ray crystallography of organic compounds
-
design
- Biomimicry for (bio)materials design
- Computational design of novel materials and molecular systems for energy-related challenges
- Computationally-led materials design
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Design and Preparation of chiral Ruthenium/ Iridium Catalysts
- Design and application of methods combining quantum mechanics and molecular mechanics
- Design and development of hybrid trioxane-containing molecules (trioxaquines®) as antimalarials
- Design and development of new copper-specific chelating agents as potential therapeutic agents for Alzheimer’s disease
- Design and development of new stereoselective methods in organic synthesis
- Design and development of trioxaquines as anti-schistosomiasis drugs
- Design and synthesis of bio-mimetic molecules
- Design of descriptors for chemical processes
- Design of protocells, cascade reactions
- Design, creation and use of portable instruments
- Designed construction of hybrid organic-inorganic materials
- Drug design
- Innovative reactor design
- Microstructural design and processing
- Organometallic Chemistry: Synthesis and reactivity. Design and preparation of modular ligands, in particular chiral ones.
- Protocell design and construction
- Rational design of catalysts
- Structural design of organic materials ("crystal engineering")
- Systems connected to the development of sustainable (green) chemistry : Design/applications of Pd-water-soluble catalysts
-
development
- Design and development of hybrid trioxane-containing molecules (trioxaquines®) as antimalarials
- Design and development of new copper-specific chelating agents as potential therapeutic agents for Alzheimer’s disease
- Design and development of new stereoselective methods in organic synthesis
- Design and development of trioxaquines as anti-schistosomiasis drugs
- Development and application of laser based plasma diagnostic methods
- Development and application of new strategies and techniques for structure determination from powder X-ray diffraction data
- Development and construction of scientific apparatus
- Development of a multidisciplinary field, called bioorganometallic chemistry, dedicated to the synthesis and study of biologically-interesting organometallic complexes
- Development of complex catalytic systems with enzyme-like behavior
- Development of conceptionally new catalysts
- Development of effectively polarizable force fields for biomolecular simulations
- Development of in-situ spectro-electrochemical tools for highly reactive electrochemical systems
- Development of new catalytic methodologies for organic functional group transformations
- Development of new experimental methodologies for investigating the mechanisms of fast reactions
- Development of new synthetic methods
- Development of new understanding of the heaviest and most reactive metals
- Development of novel electrochemical biosensors and immunosensors on the basis of conductive polymers
- Development of novel quantum chemical methods for strongly correlated systems
- Development of paramagnetic metal complexes as potential contrast agents in Magnetic Resonance Imaging
- Development of processes and technologies for energy transition
- Development of quantum chemical methods and programs
- Development of self-assembly approaches to hybrid nanoscale objects
- Development of technologies for non-canonical nucleoside and nucleotide synthesis
- Development of the new technique of Gas Adsorption Crystallography
- Development of value-added products from algae
- Drug development studies
- IR- and THz laser development
- Radical chemistry: methodology and development of new cascade processes
- Radioligand development
- Solid-state NMR spectroscopy, particularly the development of new techniques for in-situ studies of chemical processes
- Systems connected to the development of sustainable (green) chemistry : Design/applications of Pd-water-soluble catalysts
- Technological innovation for the development of new instruments and analytical tools to characterize materials of cultural heritage
- Therapeutic immunology and chemistry: development of molecules that target pathological pathways, peptide drug candidates
- Ultra high performance computing including development of codes that run on the world's fastest supercomputers
- development of instruments and techniques
-
device
- Artificial Photosynthetic Systems and Photovoltaic Devices (All organic and perovskites solar cells)
- Carbon nanotube growth and devices
- Electrochemical devices for neuromorphic computing
- Molecular Electronics and Spintronics: room temperature magnetoresistance in single-molecule devices with magnetic molecules.
- Molecular materials with liquid crystalline properties for electronic and optoelectronic devices
- Nanoelectronics and molecule based logic devices
- Nanomaterials for printed electronic devices and sensors
- New energy devices and technologies
- Organic light-emitting devices (OLEDs)
- Organic neuromorphic devices
- Organic neuromorphic devices: harnessing ion-pi interaction and its dynamics for sensing applications
- molecular-level devices and machines
-
drug
- Anticancer drug discovery and translational and molecular medicine
- Clinical drug monitoring
- Controlled drug and gene delivery
- Controlled drug delivery
- Design and development of trioxaquines as anti-schistosomiasis drugs
- Drug delivery
- Drug delivery
- Drug design
- Drug development studies
- Drug discovery
- Drug metabolism and pharmacokinetics
- Functional macromolecules for targeted drug delivery, diagnostics, immunotherapy.
- Solid drug forms and drug formulations
- Therapeutic immunology and chemistry: development of molecules that target pathological pathways, peptide drug candidates
- Vectors for drug delivery
-
dynamic
- Algebraic techniques for structure and dynamics in anharmonic systems
- Asymmetric hydrogenation reactions, Synthesis of Fragrances, Dynamic Kinetic Resolution
- Charge dynamics
- Complex fluids dynamics
- Constitutional dynamic chemistry
- Dynamic Kinetic Resolution
- Dynamic characterization of peptides and proteins
- Dynamic combinatorial chemistry
- Dynamic superwettability interface
- Dynamics in phase space, including the application of information theory
- Dynamics of concentrated polymer solutions and melts
- Elementary mechanisms, kinetics, and dynamics of reactions at interfaces
- Fundamentals of solid inclusion compounds: incommensurate structures and dynamic properties
- Gas and solution phase molecular spectroscopy, photochemistry and reaction dynamics
- Molecular dynamics
- Organic neuromorphic devices: harnessing ion-pi interaction and its dynamics for sensing applications
- Protein dynamics
- Quantum dynamics
- Reaction dynamics and mechanism in large systems including clusters and in solution
- Reaction dynamics in liquids
- Spin dynamics in nanostructured materials
- Structure and dynamics of solvated electrons by electronic structure calculations and photoelectron spectroscopy
- THz Spectroscopy as a tool to study solvation dynamics
- Ultrafast reaction and photodissociation dynamics
- Velocity map imaging of chemical dynamics
-
electrochemistry
- Computational and theoretical electrochemistry
- Diamond Electrochemistry
- Electrocatalysis and electrochemistry
- Electrochemistry
- Electrochemistry
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Molecular electrochemistry
- Molecular electrochemistry in activation by electron-transfer, mechanistic studies and establishment of redox potential-structure relationships
- Non-aqueous electrochemistry
- Photochemistry, electrochemistry, spectroelectrochemistry
- Physical Electrochemistry
- Physical and analytical electrochemistry
- Protein film electrochemistry
-
electron
- 3D Electron crystallography
- Aberration corrected analytical electron microscopy of nanoparticulate materials
- Accurate structure determination of Metal-Organic Frameworks and Covalent-Organic Frameworks by Electron Microscopy
- Advanced electron microscopy
- Chiral induced spin selectivity for explaining long range electron transfer in biology, catalysis and for spintronic applications
- Convergent beam electron diffraction
- Electron Paramagnetic Resonance (EPR) spectroscopy
- Electron catalysis
- Electron correlation
- Electron crystallography for determining the handedness of chiral zeolite nano-crystals
- Electron dynamical scattering
- Electron energy loss spectroscopy and energy dispersive X-ray spectroscopy
- Electron energy loss spectroscopy and imaging
- Electron exchange columns
- Electron microscopy
- Electron microscopy
- Electron spectroscopy, microscopy, molecular beams
- Electron tomography
- Electron tomography
- Electron transfer theory
- Fine structure of zeolites by Electron Microscopy
- First direct observation of all framework atoms in zeolites by Electron Microscopy
- First structure solution of a complex zeolite by electron crystallography
- Gas-phase electron diffraction
- Multi-dimensional electron microscopy
- New methods for structure determination of mesoporous crystals by Electron Microscopy
- Oxidative C-C and C-X bond formations by using organic single electron oxidants
- Photochemistry and photocatalysis, electron transfer and energy transfer
- Photoinduced Electron Transfer processes (Mimicking Photosynthesis)
- Precession electron diffraction
- Radical chemistry, Single Electron Transfer (SET) catalysis
- Scanning transmission electron microscopy
- Structure and dynamics of solvated electrons by electronic structure calculations and photoelectron spectroscopy
- Structure solution and refinement using electron crystallography
- Theoretical physics of electron and proton transfer
- Theory of mixed electron and ion transport in solids
- Transmission electron microscopy
- Treatment of electron correlation via coupled-cluster theory
- electron transfer reactions
- instrumental microscopic analysis with ion, electron and laser beam techniques and synchrotron X-ray sources
-
energy
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Bio-inspired and biomimetic electrode materials for sensing and energy conversion
- Chemical energy conversion
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Development of processes and technologies for energy transition
- Electron energy loss spectroscopy and energy dispersive X-ray spectroscopy
- Electron energy loss spectroscopy and imaging
- Energy (CO2 reduction, photovoltaic cells, gaz purification...)
- Energy applications
- Energy conversion
- Energy conversion (fuel cells)
- Energy conversion and storage
- Energy harvesting and conversion
- Energy materials
- Energy storage
- Energy storage
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Energy storage materials
- Green energy chemistry (catalytic water oxidation, CO2 reduction, light absorption)
- Inorganic materials for electrochemical energy sources (Li-batteries and fuel cells)
- Low energy ion scattering
- Materials Science of electrocatalytic energy storage and conversion
- Materials chemistry for clean energy applications
- Materials for energy storage
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Metal/conjugated organic frameworks for solar energy utilization
- Nanomaterials for energy storage
- New energy devices and technologies
- Novel materials for photo-catalytis for sustainable energy generation
- Photochemistry and photocatalysis, electron transfer and energy transfer
- Physical chemistry of energy production
- Renewable energy conversion
- Solar energy
- Solar energy conversion
- Solar energy harvesting and conversion
- Storage of energy
- Sustainable energy and chemical processes
- Synthesis of energy materials with focus on shape-controlled nanostructures
- Transport theory and energy optimization
- photochemical solar energy conversion
-
engineering
- Chemical engineering
- Chemical engineering in the field of multiphase gas-liquid-solid catalytic reactors
- Chemical reaction engineering
- Crystal engineering
- Crystal engineering of coordination compounds
- Fluoroarene-arene interactions in crystal engineering and liquid crystal phase behavior
- Interfacial molecular patterning/engineering
- Materials engineering
- Materials engineering/materials science/materials chemistry
- Materials science and engineering
- Polymerization kinetics and reaction engineering
- Protein engineering
- Reaction engineering
- Tissue Engineering
- Tissue engineering and regenerative medicine
-
environmental
- Environmental Catalysis
- Environmental chemistry
- Environmental chemistry
- Environmental pollution
- Environmental, biomedical and pharmaceutical analysis
- Green chemistry and environmental science
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Preparation and characterization of nanosized semiconductors for photochemical, environmental and sensing applications
-
fuel
- Active materials to be used in solid oxides fuel cells
- Carbon-neutral liquid fuels
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Fuel cells
- Fuel cells
- Fuel gas storage
- Hydrogen and fuel cells
- Photo-catalysts for solar fuel production, including H2, and organic synthesis
- Photocatalytic CO2 reduction for solar fuel production
- Solar Fuels
- Solar fuel synthesis
- Solar fuels
-
functional
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Advanced functional materials (2d nanomaterials and polymer nanocomposites)
- Assembly of hybrid functional nanostructures
- Dendritic and other functional polymers
- Density Functional Theory (DFT) and ab initio calculations
- Density functional theory
- Development of new catalytic methodologies for organic functional group transformations
- Functional and quantum nanostructures
- Functional macromolecules for targeted drug delivery, diagnostics, immunotherapy.
- Functional materials
- Functional models of metalloproteins
- Functional nanomaterials
- Functional polymeric networks, in particular for catalytic purposes
- Functional polymers and magnetic nanoparticles
- Growth and non-equilibrium phenomena in functional low-dimensional nanostructures
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Metal complexes of functional enolates
- Metallodendritic polymers and functional nanoparticles (synthesis, properties and applications)
- Model studies of functional interfaces and nanomaterials
- Molecular functional materials
- Seminal contributions to Density Functional Theory
- Supramolecular chemistry and self-assembled functional materials
- Synthesis and assembly of catalysts and functional materials
-
gas
- Catalysis and gas separation in porous materials
- Catalytic studies involving (hydro-)isomerisation of hydrocarbons, selective hydrogenations, aldol-condensation, synthesis gas conversion (paraffins, olefins and alcohols) and biomass conversions
- Development of the new technique of Gas Adsorption Crystallography
- Experimental research on plasma catalysis for the conversion of greenhouse gases into value-added chemicals
- Fuel gas storage
- Gas adsorption and selectivity
- Gas and solution phase molecular spectroscopy, photochemistry and reaction dynamics
- Gas phase nucleation
- Gas phase reactions
- Gas phase studies of fullerenes and atomic clusters
- Gas storage applications in medicine
- Gas/solid structure differences
- Integrated tools for physical-chemical processes in gas and condensed phases
- Organometallic alkane & noble gas complexes
- Toxic gas capture
-
green
- Chemical applications of supercritical fluids, with particular emphasis on Green Chemistry
- Electro-catalysts for green H2 production, CO2 valorization, N2 activation and H2O2 production
- Green Chemistry
- Green Chemistry : C-H activation, Cycloisomerizations reactions
- Green and sustainable chemistry
- Green chemistry
- Green chemistry and environmental science
- Green energy chemistry (catalytic water oxidation, CO2 reduction, light absorption)
-
heterogeneous
- Computational heterogeneous catalysis, especially for micro-porous and oxide materials;
- Heterogeneous catalysis
- Heterogeneous catalysis
- Heterogeneous catalysis & kinetics
- Heterogeneous catalysts
- Heterogeneous photocatalysis
- Inorganic chemistry, heterogeneous catalysis
- Mechanisms of heterogeneous, homogeneous and enzymatic catalytic processes
- Molecular mechanisms in heterogeneous catalysis
- Nanostructured materials for heterogeneous catalysis
-
homogeneous
- Computational homogeneous catalysis
- Computational study of systems in homogeneous phases
- Homogeneous Catalysis (Borylations including C-H and C-X bond functionalization and addition reactions,coupling reactions)
- Homogeneous catalysis
- Homogeneous catalysis by complexes of rhodium, iridium, ruthenium and osmium
- Homogeneous catalysis using Fe, Pd, Ru, Rh, Ir, Pt, Au
- Homogeneous catalysis: Transition metals. Application to fine chemistry.
- Homogeneous catalysts
- Homogeneous metal catalysts
- Homogeneous transition metal catalysis
- Mechanisms of heterogeneous, homogeneous and enzymatic catalytic processes
- Organometallic chemistry and homogeneous catalysis
- homogeneous catalysis
- homogeneous catalysis with earth abundant rare earth complexes
-
hybrid
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Applications of hybrids
- Assembly of hybrid functional nanostructures
- Bio-inspired approaches to hierarchically structured inorganic and hybrid organic-inorganic materials
- Biosynthetic hybrids
- Design and development of hybrid trioxane-containing molecules (trioxaquines®) as antimalarials
- Designed construction of hybrid organic-inorganic materials
- Development of self-assembly approaches to hybrid nanoscale objects
- Hierarchical self-assembly and self-organization of hybrid systems
- Hybrid Biomaterials
- Hybrid QM/QM methods
- Hybrid materials
- Hybrid materials for catalysis
- Hybrid materials for conducting organic polymers (COP)
- Hybrid materials for luminescent materials
- Hybrid materials for sensors and biosensors
- Hybrid nanomaterials for nanomedicine
- Hydrogels based on self-assembly of hybrid systems
- Inorganic composite materials and hybrid organic-inorganic materials for biosensors
- Inorganic-organic hybrid materials
- New hybrid materials
- Optical, electrical and mechanical properties of hybrid materials
- Organic-inorganic hybrid nanostructured colloids
- Organization and characterization of molecules on surfaces and hybrid nanostructures
-
hydrogen
- Biological hydrogen
- Electrochemical hydrogen storage
- Hydrogen
- Hydrogen and fuel cells
- Hydrogen bonds
- Hydrogen isotopes
- Hydrogen storage materials
- Nanostructured materials for hydrogen storage and CO2 capture
- New catalysts for the production and purification of hydrogen
- Photocatalytic hydrogen production
- Secondary interactions: M…H-O hydrogen bond
- Solar Hydrogen from Waste Streams
-
imaging
- Development of paramagnetic metal complexes as potential contrast agents in Magnetic Resonance Imaging
- Electron energy loss spectroscopy and imaging
- High angle annular dark field imaging of catalyst materials
- Imaging and manipulation of single molecules and nanoparticles in bio- and nano-sciences
- Imaging of adaptive immune responses
- In-situ, non-destructive, non-invasive spectroscopies and hyperspectral imaging for ancient materials
- Metal complexes for diagnostics and molecular imaging
- Molecular imaging
- Molecular imaging biomarkers
- Photoelectron imaging of confined systems
- Responsive imaging agents
- Velocity map imaging of chemical dynamics
-
inorganic
- Bio-inspired approaches to hierarchically structured inorganic and hybrid organic-inorganic materials
- Biological inorganic chemistry
- Computer modelling of inorganic materials
- Correlation between structure and magnetic and electronic properties of solid-state inorganic systems
- Electroactive inorganic polycrystals and self-assembled multilayers
- Inorganic & bioinorganic chemistry
- Inorganic and organic photochemistry
- Inorganic and organometallic chemistry
- Inorganic chemistry
- Inorganic chemistry
- Inorganic chemistry and bioinorganic chemistry
- Inorganic chemistry, heterogeneous catalysis
- Inorganic chemistry, synthesis and characterisation
- Inorganic composite materials and hybrid organic-inorganic materials for biosensors
- Inorganic magnetic and superconducting materials
- Inorganic materials
- Inorganic materials for electrochemical energy sources (Li-batteries and fuel cells)
- Inorganic nanomaterial chemistry
- Inorganic synthesis
- Magnetic coupling in ionic solids, inorganic complexes and organic radicals
- Molecular Inorganic Chemistry
- Molecular inorganic chemistry
- Organic/inorganic materials (sol-gel chemistry)
- Photovoltaic properties of organic and inorganic semiconductors
- Synthesis of conducting polymer/inorganic particles nanocomposites and their applications for organic catalysis and sensoring
- Synthesis, characterization, modification and application of Inorganic Nanotubes
- Theoretical inorganic chemistry
- Theoretical inorganic chemistry
- Theoretical methods applied to the magnetic properties of inorganic molecular systems
-
interaction
- Analytical and synthetic carbohydrate chemistry interaction with enzymes
- Electrons-molecules interactions
- Fluoroarene-arene interactions in crystal engineering and liquid crystal phase behavior
- Interactions metal ions
- Intermolecular interaction
- Intermolecular interactions
- Intramolecular and intermolecular interactions
- Magnetic and electric interactions in coordination compounds and magnetic materials
- Magnetic interactions
- Magnetic interactions between metal ions and metal ions and organic radicals
- Metal-DNA interactions
- Modeling of laser-surface and plasma-surface interactions
- Molecular recognition and intermolecular interactions (catalysis; biomacromolecules)
- Non-covalent interactions in synthesis
- Non-covalent metal-metal interactions and their nano-assemblies, clusters and aggregates
- Organic neuromorphic devices: harnessing ion-pi interaction and its dynamics for sensing applications
- Proteincarbohydrate interactions
- Secondary interactions: M…H-O hydrogen bond
- Supramolecular Chemistry of Carbon Nanoforms. Concave-convex Supramolecular Interactions
- Theoretical aspects of spin-crossover, exchange interactions and magnetic anisotropy in single-molecule magnets
-
interface
- Colloid and interface science
- Colloids and interfaces
- Dynamic superwettability interface
- Elementary mechanisms, kinetics, and dynamics of reactions at interfaces
- General curved interfaces, bending moments, biointerfaces
- Model studies of functional interfaces and nanomaterials
- Particles at fluid interfaces and capillary forces
- Physical chemistry of electrified solid-liquid Interfaces
- Physical chemistry of materials, surfaces and interfaces
- Physical chemistry, surface and interface sciences
- Solid-liquid interfaces
- Supramolecular Chemistry at surfaces and interfaces
- Surface and Interface Science
- Theory of the structure of electrofied interfaces and ionic adsorption
- physical chemistry at surfaces and interfaces
-
ion
- Bioactive molecules and selective chemosensors of biological ions
- Coordination chemistry of transition-metal ions
- Hofmeister ion effects in protein salting out/salting in, denaturation, and enzymatic activity
- Interactions metal ions
- Ions spectroscopy
- Low energy ion scattering
- Magnetic interactions between metal ions and metal ions and organic radicals
- Magnetic systems containing rare earth ions
- Molecular simulations and neutron scattering experiments of biologically relevant ions in aqueous solutions
- Role of ions in biological transport and signalling
- Study of negative ions, stability, reactivity and characterization of carbon chains anions
- Theory of mixed electron and ion transport in solids
- instrumental microscopic analysis with ion, electron and laser beam techniques and synchrotron X-ray sources
-
kinetics
- Catalytic kinetics
- Catalytic processes and kinetics
- Chemical kinetics and catalysis
- Chemical reaction kinetics in confined systems
- Elementary mechanisms, kinetics, and dynamics of reactions at interfaces
- Enzyme kinetics and mechanism
- Heterogeneous catalysis & kinetics
- Kinetics
- Kinetics and mechanisms
- Kinetics and mechanisms of oil (fragrance, drug) solubilization in micellar solutions
- Kinetics and photochemistry
- Molecular kinetics
- Polymerization kinetics and reaction engineering
- Reaction kinetics
- Surfactant adsorption: thermodynamics, kinetics and detergency
-
liquid
- Capillarity, contact angles, thin liquid films, surface forces
- Carbon-neutral liquid fuels
- Enantiomer separations by high-performance liquid chromatography
- Experimental and theoretical study of molecular diffusion in highly viscous ionic liquids
- Fluoroarene-arene interactions in crystal engineering and liquid crystal phase behavior
- Ionic Liquids
- Liquid exfoliation and solution processing of nanomaterials
- Molecular materials with liquid crystalline properties for electronic and optoelectronic devices
- Polymer liquid crystals
- Reaction dynamics in liquids
- Room temperature ionic liquids
- Surface forces and stability of liquid films
- Synthesis of Quantum Spin Liquids and other magnetic materials
- Synthesis using ionic liquids (ionothermal synthesis)
-
magnetic
- Analysis and interpretation of optical, vibrational, and magnetic resonances spectroscopies
- Correlation between structure and magnetic and electronic properties of solid-state inorganic systems
- Development of paramagnetic metal complexes as potential contrast agents in Magnetic Resonance Imaging
- Functional polymers and magnetic nanoparticles
- Inorganic magnetic and superconducting materials
- Magnetic and electric interactions in coordination compounds and magnetic materials
- Magnetic anisotropy : Single chain and single molecule magnets
- Magnetic coupling in ionic solids, inorganic complexes and organic radicals
- Magnetic interactions
- Magnetic interactions between metal ions and metal ions and organic radicals
- Magnetic molecular materials
- Magnetic molecular materials
- Magnetic nanoparticles
- Magnetic nanostructures
- Magnetic ordering and magnetic structures
- Magnetic resonance and catalysis
- Magnetic spectroscopy
- Magnetic systems containing rare earth ions
- Magnetic systems for high-frequency electronic applications
- Mechanisms of magnetic exchange
- Molecular Electronics and Spintronics: room temperature magnetoresistance in single-molecule devices with magnetic molecules.
- Multifunctional magnetic materials
- Nuclear magnetic resonance spectroscopy
- Synthesis of Quantum Spin Liquids and other magnetic materials
- Synthesis, characterization and study of mononuclear magnetic complexes, bidimensional frameworks, supramolecular systems
- Theoretical aspects of spin-crossover, exchange interactions and magnetic anisotropy in single-molecule magnets
- Theoretical methods applied to the magnetic properties of inorganic molecular systems
- magnetic properties of polymetallic complexes
-
material
- 2-dimensioanal materials
- 2D Materials
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Aberration corrected analytical electron microscopy of nanoparticulate materials
- Active materials to be used in solid oxides fuel cells
- Adsorption and adsorption materials
- Adsorption and reaction of freons (CFCs) on zeotype materials
- Advanced computer modelling of solid state materials
- Advanced functional materials (2d nanomaterials and polymer nanocomposites)
- Ancient materials as an unexpected source of information on long-term physico-chemical ageing
- Aperiodic materials (incommensurate materials and quasicrystals)
- Architecture vs. function relationship in complex and multicomponent supramolecular materials
- Bio-inspired and biomimetic electrode materials for sensing and energy conversion
- Bio-inspired approaches to hierarchically structured inorganic and hybrid organic-inorganic materials
- Bio-inspired materials
- Bio-inspired materials chemistry
- Bioinspired Materials
- Bioinspired materials and interfacial science
- Biomedical materials
- Biomimetic Materials
- Biomimicry for (bio)materials design
- Biosynthesis of semiconductor quantum dot materials
- Carbon nanotubes, graphene, adamantane and other 2D materials
- Catalysis and gas separation in porous materials
- Catalytic materials
- Chromophoric and luminescent materials and triplet emitters
- Composite materials
- Computational Materials Chemistry
- Computational Materials Science
- Computational design of novel materials and molecular systems for energy-related challenges
- Computational heterogeneous catalysis, especially for micro-porous and oxide materials;
- Computationally-led materials design
- Computer modelling of inorganic materials
- Conjugated organic, organoboron and organometallic materials for applications in linear and nonlinear optics, organic electronics, bioimaging, photodynamic therapy, and sensing of biomolecules
- Defect physics and chemistry of solid materials
- Designed construction of hybrid organic-inorganic materials
- Ecological environment materials
- Electrode materials for lithium-ion batteries
- Electronic materials
- Electronic structure of low-dimensional materials
- Energetic materials
- Energy materials
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Energy storage materials
- Functional materials
- Graphene and other 2D materials
- Graphenes and carbon materials
- High angle annular dark field imaging of catalyst materials
- Hybrid materials
- Hybrid materials for catalysis
- Hybrid materials for conducting organic polymers (COP)
- Hybrid materials for luminescent materials
- Hybrid materials for sensors and biosensors
- Hydrogen storage materials
- In-situ, non-destructive, non-invasive spectroscopies and hyperspectral imaging for ancient materials
- Inert anode materials for aluminum production
- Innovative materials for catalytic converters
- Inorganic composite materials and hybrid organic-inorganic materials for biosensors
- Inorganic magnetic and superconducting materials
- Inorganic materials
- Inorganic materials for electrochemical energy sources (Li-batteries and fuel cells)
- Inorganic-organic hybrid materials
- Low-dimensional materials
- Magnetic and electric interactions in coordination compounds and magnetic materials
- Magnetic molecular materials
- Magnetic molecular materials
- Material Sciences
- Material chemistry
- Materials
- Materials Science
- Materials Science
- Materials Science of electrocatalytic energy storage and conversion
- Materials chemistry
- Materials chemistry
- Materials chemistry for clean energy applications
- Materials chemistry, nanosciences and nanotechnology
- Materials engineering
- Materials engineering/materials science/materials chemistry
- Materials for energy storage
- Materials informatics
- Materials science and engineering
- Materials science for cultural heritage
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Mesoporous materials as catalysts
- Metal organic materials
- Metal oxide chemistry: preparation and characterisation of innovative materials for catalysis and photocatalysis
- Micro- and Mesoporous Nano-structured Materials
- Microporous materials for selective adsorption
- Microporous materials as catalysts
- Molecular and nanoscale materials
- Molecular functional materials
- Molecular materials
- Molecular materials
- Molecular materials in water
- Molecular materials with liquid crystalline properties for electronic and optoelectronic devices
- Molecular nanoscience and materials chemistry
- Molecular nanoscience and materials chemistry
- Molecule-based Materials
- Multifunctional magnetic materials
- Multiscale materials and process simulations
- Nanomaterials, Materials science, Superconductivity, Molecular electronics, Lithium polymer batteries
- Nanoscale materials science
- Nanoscience and materials science
- Nanostructured materials
- Nanostructured materials for heterogeneous catalysis
- Nanostructured materials for hydrogen storage and CO2 capture
- Nanotubes, nanowires and other 1D materials
- New hybrid materials
- New materials with novel electronic, geometric and chemical properties
- Novel materials for photo-catalytis for sustainable energy generation
- Optical properties of materials
- Optical spectroscopy of molecular (bio)materials
- Optical, electrical and mechanical properties of hybrid materials
- Organic/inorganic materials (sol-gel chemistry)
- Perovskite solar cell materials
- Photofunctional Materials
- Physical chemistry of materials
- Physical chemistry of materials
- Physical chemistry of materials, surfaces and interfaces
- Pi-conjugated materials
- Porous material chemistry
- Porous materials
- Porous materials, zeolites and metal oxides catalysts
- Soft chemistry based routes to nanostructured materials
- Solid state and materials chemistry
- Spectroscopy of metal clusters confined in porous materials
- Spin dynamics in nanostructured materials
- Strongly correlated materials
- Structural design of organic materials ("crystal engineering")
- Supramolecular chemistry and self-assembled functional materials
- Supramolecular materials
- Synthesis and assembly of catalysts and functional materials
- Synthesis and characterization of materials
- Synthesis of Quantum Spin Liquids and other magnetic materials
- Synthesis of energy materials with focus on shape-controlled nanostructures
- Technological innovation for the development of new instruments and analytical tools to characterize materials of cultural heritage
- Theoretical materials science
- Theory of surfaces and material science
- Use of probe molecules to characterize high surface area materials
- Zeolites and microporous materials
- advanced materials
- new materials with main group elements of groups 2, 13, 14 and 19 of the periodical system
-
mechanism
- Active-site structure and mechanism
- Cell-penetrating pepides, membrane translocation mechanisms.
- Cellular immunology: mechanisms of the death /survival balance (apoptosis, autophagy), lymphocytes (signaling)
- Chemical mechanism
- Development of new experimental methodologies for investigating the mechanisms of fast reactions
- Elementary mechanisms, kinetics, and dynamics of reactions at interfaces
- Enzyme kinetics and mechanism
- Enzyme mechanisms
- Grignard Reaction mechanism
- Investigations of chiral recognition mechanisms
- Kinetic mechanisms of neurotransmitter receptors and transporters
- Kinetics and mechanisms
- Kinetics and mechanisms of oil (fragrance, drug) solubilization in micellar solutions
- Mechanism of action of ellipticine, bleomycin and isoniazid
- Mechanisms for water oxydation
- Mechanisms of cleaning, detergency
- Mechanisms of heterogeneous, homogeneous and enzymatic catalytic processes
- Mechanisms of magnetic exchange
- Mechanisms of molecular recognition and function
- Modelling nucleation and dissolution mechanisms in widely investigated minerals
- Molecular mechanisms in heterogeneous catalysis
- Molecular mechanisms of the catalytic synthesis of ammonia over iron (Haber Bosch process)
- Quantum mechanical studies of reaction mechanisms on surfaces and in clusters
- Reaction dynamics and mechanism in large systems including clusters and in solution
- Reaction mechanism
- Reaction mechanisms
- Reaction mechanisms research
-
metal
- Activation of small molecules by metal centres
- Activation of inert bonds (CH and C-F) by transition metal complexes
- Aromatic Metal Clusters (Pd, Pt, Ru, Rh) and their use as new catalysts
- Carbon-rich metal complexes
- Catalysis, Metal Organic Chemistry, Elementary reactions in Chemistry and Physics
- Computational studies of metal hydrides (prediction of structures, properties NMR, reactivity)
- Coordination chemistry of transition metals
- Crystallochemistry of transition metal oxides
- DNA-supramolecular structures with small as well as large molecules: chiral substitution-inert metal complexes and peptide nucleic acids
- Development of new understanding of the heaviest and most reactive metals
- Development of paramagnetic metal complexes as potential contrast agents in Magnetic Resonance Imaging
- Dispersed metals
- Electronic properties of metal catalysts
- Electronic structure of catalysts based upon transition metal oxides
- Electronic structure of metal complexes
- Electrophilic catalysis of the oxy-Cope reaction.Transition metal catalysis
- Homogeneous catalysis: Transition metals. Application to fine chemistry.
- Homogeneous metal catalysts
- Homogeneous transition metal catalysis
- Interactions metal ions
- Magnetic interactions between metal ions and metal ions and organic radicals
- Metal nanoparticles: Stabilization and characterization. Application in catalysis.
- Metal carbonyl clusters
- Metal clusters and nanoparticles
- Metal complexes for diagnostics and molecular imaging
- Metal complexes for imaging applications
- Metal complexes of functional enolates
- Metal halides
- Metal nanoclusters
- Metal organic materials
- Metal oxide chemistry: preparation and characterisation of innovative materials for catalysis and photocatalysis
- Metal transfer proteins
- Metal/conjugated organic frameworks for solar energy utilization
- Metals in non-aqueous solvents
- Oxide ultrathin films on metals
- Photophysics and photochemistry of metal complexes
- Porous materials, zeolites and metal oxides catalysts
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Spectroscopy of metal clusters confined in porous materials
- Synthesis of metal compounds
- Synthesis of semiconductor and metal nanocrystals
- Synthesis, characterization and catalytic application of supported noble metal nanoparticles
- Transitionm metal chemistry
-
method
- Advanced characterization methods
- Analytical Methods
- Biological methods of wastewater treatment
- Biophysical methods
- Biophysical methods applied to biological and biomedical problems
- Characterization methods
- Combination of first principle methods with classical simulation techniques
- DFT and ab initio methods
- Design and application of methods combining quantum mechanics and molecular mechanics
- Design and development of new stereoselective methods in organic synthesis
- Development and application of laser based plasma diagnostic methods
- Development of new synthetic methods
- Development of novel quantum chemical methods for strongly correlated systems
- Development of quantum chemical methods and programs
- Growth of thin film diamond by chemical vapour deposition methods
- Hybrid QM/QM methods
- Methods and applications in organic chemistry
- Molecular modeling including MM, MD QM/MM and various QM and ab initio methods
- Monte Carlo methods
- New methods for structure determination of mesoporous crystals by Electron Microscopy
- New polymer-forming reactions including methods of organometallic chemistry
- New synthetic methods
- Physical methods for surface study
- Pseudo spectral methods
- Quantum chemistry and solid state methods
- Structural methods (X-ray and neutron diffraction, EXAFS)
- Theoretical methods applied to the magnetic properties of inorganic molecular systems
-
microscopy
- Aberration corrected analytical electron microscopy of nanoparticulate materials
- Accurate structure determination of Metal-Organic Frameworks and Covalent-Organic Frameworks by Electron Microscopy
- Advanced electron microscopy
- Atomic force microscopy (AFM)
- Electron microscopy
- Electron microscopy
- Electron spectroscopy, microscopy, molecular beams
- Fine structure of zeolites by Electron Microscopy
- First direct observation of all framework atoms in zeolites by Electron Microscopy
- Fluorescence and scanning probe microscopy
- Fluorescence microscopy
- In situ and operando microscopy and spectroscopy for catalysis applications
- In-situ and operando spectroscopy and microscopy from ideal to real environments
- Integrated microscopies (integrated fluorescence/SEM microscopy)
- Microscopy
- Microscopy developement (remote Raman excitation microscopy, defocused wide field imaging, NASCA microscopy,...)
- Multi-dimensional electron microscopy
- New methods for structure determination of mesoporous crystals by Electron Microscopy
- Scanning Probe Microscopies (AFM, STM/S, KPFM, C-AFM) beyond imaging
- Scanning probe microscopy
- Scanning probe microscopy
- Scanning probe microscopy (SPM)
- Scanning transmission electron microscopy
- Scanning tunneling microscopy (STM)
- Single molecule spectroscopy/microscopy (SMS)
- Structure-Function Relations in electrocatalysis using in-situ spectroscopy, microscopy, and scattering
- Super-resolution microscopy
- Superresolution fluorescence microscopy (PALM type microscopies and RESOLFT type of microscopies)
- Transmission electron microscopy
- photoinduced processes at surfaces , scanning probe microscopy and spectroscopy
-
model
- Clinical trials: animal models, human
- Elaboration of an additive model
- Functional models of metalloproteins
- Model intermolecular pair potentials
- Model studies of functional interfaces and nanomaterials
- Modeling catalysis and spectroscopy in molecular systems
- Modelling direct and indirect DNA damage
- Modelling nucleation and dissolution mechanisms in widely investigated minerals
- Models for metalloproteins
- Models of molecular geometry
- Molecular modeling including MM, MD QM/MM and various QM and ab initio methods
- studies on model catalysts
-
molecular
- Activation of molecular oxygen and other oxygen donors
- Aerosol and molecular cluster science
- Anticancer drug discovery and translational and molecular medicine
- Charge injection: bridging molecular and organic electronics
- Chemistry of dyes and fluorescent molecular probes
- Computational design of novel materials and molecular systems for energy-related challenges
- Design and application of methods combining quantum mechanics and molecular mechanics
- Detection of nucleic acids and molecular diagnostics
- Electron spectroscopy, microscopy, molecular beams
- Experimental and theoretical study of molecular diffusion in highly viscous ionic liquids
- Expert on molecular self-assembly
- Gas and solution phase molecular spectroscopy, photochemistry and reaction dynamics
- High resolution molecular spectroscopy
- Integrated steps to reach molecular complexity
- Interfacial molecular patterning/engineering
- Magnetic molecular materials
- Magnetic molecular materials
- Mechanisms of molecular recognition and function
- Metal complexes for diagnostics and molecular imaging
- Modeling catalysis and spectroscopy in molecular systems
- Models of molecular geometry
- Molecular & Optical Spectroscopy
- Molecular Electronics and Spintronics: room temperature magnetoresistance in single-molecule devices with magnetic molecules.
- Molecular Inorganic Chemistry
- Molecular Magnetism
- Molecular and nano-photonics
- Molecular and nanoscale materials
- Molecular architecture, cluster chemistry and polymetallic reactivity
- Molecular basis of neurodegenerative disease
- Molecular bio-conjugation
- Molecular biology
- Molecular biophysics
- Molecular chemistry
- Molecular chemistry
- Molecular chirality
- Molecular clusters
- Molecular conformation
- Molecular crystals
- Molecular dynamics
- Molecular electrochemistry
- Molecular electrochemistry in activation by electron-transfer, mechanistic studies and establishment of redox potential-structure relationships
- Molecular electronics
- Molecular electronics: Molecular nanowires
- Molecular functional materials
- Molecular imaging
- Molecular imaging biomarkers
- Molecular inorganic chemistry
- Molecular kinetics
- Molecular machines
- Molecular magnetism
- Molecular magnets
- Molecular materials
- Molecular materials
- Molecular materials in water
- Molecular materials with liquid crystalline properties for electronic and optoelectronic devices
- Molecular mechanisms in heterogeneous catalysis
- Molecular mechanisms of the catalytic synthesis of ammonia over iron (Haber Bosch process)
- Molecular modeling including MM, MD QM/MM and various QM and ab initio methods
- Molecular motion, disorder and phase transitions in crystalline solids
- Molecular nanodevice, and novel nanomaterials
- Molecular nanoscience and materials chemistry
- Molecular nanoscience and materials chemistry
- Molecular nanotechnology
- Molecular orbitals and NBO analysis
- Molecular organometallic chemistry
- Molecular photochemistry
- Molecular physical-chemistry
- Molecular recognition and intermolecular interactions (catalysis; biomacromolecules)
- Molecular recognition and sensing
- Molecular self-assembly on surfaces
- Molecular simulations and neutron scattering experiments of biologically relevant ions in aqueous solutions
- Molecular spectroscopy
- Molecular spectroscopy
- Molecular spins for quantum technologies
- Molecular spintronics
- Molecular surfaces
- Molecular switches
- Molecular therapy
- Molecular topology and molecular machines
- Nanomaterials, Materials science, Superconductivity, Molecular electronics, Lithium polymer batteries
- Non-covalent synthesis of complex molecular systems
- Optical spectroscopy of molecular (bio)materials
- Quantum-chemical calculation of molecular properties
- RNA molecular structures
- Single molecule, molecular nanostructure and self-assembly
- Synthetic molecular chiral carbon nanostructures
- Synthetic molecular knots and links
- Synthetic molecular machines
- Theoretical and Computational Molecular Sciences
- Theoretical chemistry and molecular modelling
- Theoretical methods applied to the magnetic properties of inorganic molecular systems
- Theoretical studies for interpretation of properties and reactivity at the molecular level
- nanoscience, ultra-thin-oxide films, molecular beams, spectromicroscopy
-
molecule
- Activation of small molecules by metal centres
- Bioactive molecules and selective chemosensors of biological ions
- Chemi- and physisorption of H2 molecules on metallic surfaces
- Chemistry and physics of single molecules
- Cold molecules
- DNA-supramolecular structures with small as well as large molecules: chiral substitution-inert metal complexes and peptide nucleic acids
- Design and development of hybrid trioxane-containing molecules (trioxaquines®) as antimalarials
- Design and synthesis of bio-mimetic molecules
- Electrocatalytic activation and valorization of small molecules
- Excited states of molecules
- Function molecules
- Imaging and manipulation of single molecules and nanoparticles in bio- and nano-sciences
- Magnetic anisotropy : Single chain and single molecule magnets
- Molecular Electronics and Spintronics: room temperature magnetoresistance in single-molecule devices with magnetic molecules.
- Molecules anchored on conductive surfaces
- Nanoelectronics and molecule based logic devices
- Organization and characterization of molecules on surfaces and hybrid nanostructures
- Prediction and identification of new molecules
- Self assembled molecules
- Single molecule fluorescence
- Single molecule magnets
- Single molecule spectroscopy
- Single molecule spectroscopy
- Single molecule spectroscopy/microscopy (SMS)
- Single molecule, molecular nanostructure and self-assembly
- Small molecule activation, catalysis
- Synthesis of organic small molecules
- Therapeutic immunology and chemistry: development of molecules that target pathological pathways, peptide drug candidates
- Use of probe molecules to characterize high surface area materials
-
nanomaterials
- 2D nanomaterials and low-dimensional nanostructured functional as well as hybrid materials for energy storage and conversion
- Biofunctionalisation of nanomaterials for biomedical applications
- Bionanotechnology and nanomaterials
- Bionanotechnology and nanomaterials
- Chemical synthesis of nanomaterials
- Functional nanomaterials
- Health impact of nanomaterials
- Hybrid nanomaterials for nanomedicine
- In-situ characterization of nanomaterials
- Liquid exfoliation and solution processing of nanomaterials
- Model studies of functional interfaces and nanomaterials
- Molecular nanodevice, and novel nanomaterials
- Multifunctional nanomaterials
- Nanomaterials
- Nanomaterials
- Nanomaterials for energy storage
- Nanomaterials for printed electronic devices and sensors
- Nanomaterials, Materials science, Superconductivity, Molecular electronics, Lithium polymer batteries
- Organic functionalization of nanomaterials
- Physical characterisation of nanomaterials
- Printing and solution deposition of nanomaterials
- Three-dimensional characterization of nanomaterials
-
nanoparticles
- Colloidal nanoparticles
- Composition analysis of nanoparticles by EDS and EELS spectrum imaging
- Fluorescent nanoparticles based on synthetic polymers and lipids
- Functional polymers and magnetic nanoparticles
- Functionalized nanoparticles (Au, Cu...)
- Imaging and manipulation of single molecules and nanoparticles in bio- and nano-sciences
- Magnetic nanoparticles
- Metal nanoparticles: Stabilization and characterization. Application in catalysis.
- Metal clusters and nanoparticles
- Metallodendritic polymers and functional nanoparticles (synthesis, properties and applications)
- Nanoparticles
- Nanoparticles
- Nanoparticles characterization
- Nanoparticles for catalytic applications
- Nanoparticles in biology
- Self-assembly of gold nanoparticles into ordered superstructures
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Synthesis, characterization and catalytic application of supported noble metal nanoparticles
-
nanostructures
- Assembly of hybrid functional nanostructures
- Bottom-up synthesis of carbon nanostructures and graphene nanoribbons
- Carbon nanostructures for Nanoscience and Nanotechnology
- Chemically tailored nanostructures
- Functional and quantum nanostructures
- Growth and non-equilibrium phenomena in functional low-dimensional nanostructures
- Hierarchical nanostructures
- Magnetic nanostructures
- Multi-functional catalytic nanostructures (metal organic frameworks, others)
- Nanotoxicity, biological effects of nanostructures
- Organization and characterization of molecules on surfaces and hybrid nanostructures
- Synthesis of energy materials with focus on shape-controlled nanostructures
- Synthetic molecular chiral carbon nanostructures
-
nanotechnology
- Carbon nanoscience and nanotechnology
- Carbon nanostructures for Nanoscience and Nanotechnology
- Materials chemistry, nanosciences and nanotechnology
- Molecular nanotechnology
- Nanochemistry and nanotechnology
- Nanoscience and nanotechnology
- Nanosciences and Nanotechnologies
- Nanotechnology
- Nanotechnology
- Therapeutic Nanotechnologies, Drug-Delivery, Biomaterials
-
new
- Application of new techniques to investigate important industrial catalysts under realistic conditions
- Aromatic Metal Clusters (Pd, Pt, Ru, Rh) and their use as new catalysts
- Design and development of new copper-specific chelating agents as potential therapeutic agents for Alzheimer’s disease
- Design and development of new stereoselective methods in organic synthesis
- Development and application of new strategies and techniques for structure determination from powder X-ray diffraction data
- Development of conceptionally new catalysts
- Development of new catalytic methodologies for organic functional group transformations
- Development of new experimental methodologies for investigating the mechanisms of fast reactions
- Development of new synthetic methods
- Development of new understanding of the heaviest and most reactive metals
- Development of the new technique of Gas Adsorption Crystallography
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Fullerenes as a singular curved scenario: Discovering new reactions on Fullerenes!
- Highly reactive species, new bonding modes and reactivity patterns
- New catalysts for the production and purification of hydrogen
- New energy devices and technologies
- New hybrid materials
- New materials with novel electronic, geometric and chemical properties
- New methods for structure determination of mesoporous crystals by Electron Microscopy
- New polymer-forming reactions including methods of organometallic chemistry
- New synthetic approaches to achieve 3D aromatic Boron cluster derivatives
- New synthetic methods
- Prediction and identification of new molecules
- Radical chemistry: methodology and development of new cascade processes
- Solid-state NMR spectroscopy, particularly the development of new techniques for in-situ studies of chemical processes
- Technological innovation for the development of new instruments and analytical tools to characterize materials of cultural heritage
- new materials with main group elements of groups 2, 13, 14 and 19 of the periodical system
-
nmr
- A wide range of solution-state NMR techniques
- Advanced Characterisation using X-ray diffraction, solid-state NMR and PDF techniques
- Analysis of NMR chemical shift and relation with reactivity and properties
- NMR Crystallography
- NMR spectroscopy
- NMR spectroscopy in chemistry and biology
- Quantum-chemical calculation of NMR chemical shifts
- Solid-state NMR spectroscopy
- Solid-state NMR spectroscopy, particularly the development of new techniques for in-situ studies of chemical processes
- Specialized in XPS/UPS/ESR/NMR/ENDOR/NEDOR techniques
- Surface enhanced NMR spectroscopy
-
optical
- Advanced optical spectroscopy
- Analysis and interpretation of optical, vibrational, and magnetic resonances spectroscopies
- Analytical chemistry: optical biosensing and bioimaging
- Electrochemical and optical biosensors, immunosensors and DNA sensors
- Molecular & Optical Spectroscopy
- Optical and luminescence sensing
- Optical properties of materials
- Optical spectroscopy
- Optical spectroscopy of molecular (bio)materials
- Optical telecommunications
- Optical trapping
- Optical, electrical and mechanical properties of hybrid materials
- Photochromism, optical switching and memories
- Polymer Dissolution: microelectronics and optical applications
- Superresolution optical mapping of DNA for microbiome analysis
-
organic
- Applications in organic synthesis of Pd-water-soluble catalysts
- Biomass conversion and organic synthesis
- Catalysis of organic reactions
- Catalysis, Metal Organic Chemistry, Elementary reactions in Chemistry and Physics
- Charge injection: bridging molecular and organic electronics
- Chemistry, structural organic and supramolecular
- Computational prediction of properties of organic crystals
- Conjugated organic, organoboron and organometallic materials for applications in linear and nonlinear optics, organic electronics, bioimaging, photodynamic therapy, and sensing of biomolecules
- Design and development of new stereoselective methods in organic synthesis
- Development of new catalytic methodologies for organic functional group transformations
- Hybrid materials for conducting organic polymers (COP)
- Inorganic and organic photochemistry
- Macromolecular and supramolecular chemistry, organic synthesis
- Magnetic coupling in ionic solids, inorganic complexes and organic radicals
- Magnetic interactions between metal ions and metal ions and organic radicals
- Mesoporous covalent-bonding organic frameworks and nanostructured functional carbon materials for energy storage and conversion
- Metal organic materials
- Metal/conjugated organic frameworks for solar energy utilization
- Methods and applications in organic chemistry
- Modern organic free radical chemistry
- Mutidisciplinary field of research and expertise: Organic synthesis and immunology
- Organic Bioelectronics: biosensors and biomedical applications at the Point of Care
- Organic Field Effect Transistors
- Organic bioelectronics
- Organic bioelectronics: point of care and wearable biosensors
- Organic chemistry
- Organic chemistry
- Organic chemistry in water
- Organic chemistry of modified nucleosides/nucleotides
- Organic crystal structure prediction
- Organic electronics
- Organic electronics
- Organic electronics (fabrication of supramolecular FETs and nanowires)
- Organic functionalization of nanomaterials
- Organic light-emitting devices (OLEDs)
- Organic mixed conductors
- Organic neuroelectronics in vivo
- Organic neuromorphic devices
- Organic neuromorphic devices: harnessing ion-pi interaction and its dynamics for sensing applications
- Organic radicals
- Organic semiconductors
- Organic solid state chemistry
- Organic synthesis
- Organic synthesis
- Organic synthesis and supramolecular chemistry of pi-conjugated systems
- Organic synthetic methodology in aromatic coupling reactions
- Organic transistors: connecting structure to performance
- Organic/inorganic materials (sol-gel chemistry)
- Oxidative C-C and C-X bond formations by using organic single electron oxidants
- Photo-catalysts for solar fuel production, including H2, and organic synthesis
- Photovoltaic properties of organic and inorganic semiconductors
- Physical Organic Chemistry
- Physical organic chemistr
- Physical organic chemistry
- Porous organic cages
- Structural and operando characterization of organic semiconductors
- Structural design of organic materials ("crystal engineering")
- Synthesis of conducting polymer/inorganic particles nanocomposites and their applications for organic catalysis and sensoring
- Synthesis of organic small molecules
- Transition-metal-catalyzed transformations for organic chemistry
- Use of organometallic in organic synthesis, particularly the arene chromium tricarbonyl series
- Use of quantum mechanics, atomistic modeling and other multi-scale modeling of the organic solid state
- X-ray crystallography of organic compounds
- analytical chemistry, organic chemistry and biochemistry
-
organometallic
- Computational chemistry for the study of organometallic species
- Conjugated organic, organoboron and organometallic materials for applications in linear and nonlinear optics, organic electronics, bioimaging, photodynamic therapy, and sensing of biomolecules
- Development of a multidisciplinary field, called bioorganometallic chemistry, dedicated to the synthesis and study of biologically-interesting organometallic complexes
- Inorganic and organometallic chemistry
- Molecular organometallic chemistry
- New polymer-forming reactions including methods of organometallic chemistry
- Organometallic Chemistry
- Organometallic Chemistry (Metal boron complexes, synthesis of model catalytic intermediates, luminescent organometallics)
- Organometallic Chemistry: Synthesis and reactivity. Design and preparation of modular ligands, in particular chiral ones.
- Organometallic Ruthenium complexes
- Organometallic alkane & noble gas complexes
- Organometallic and coordination chemistry
- Organometallic chemistry
- Organometallic chemistry (Au, Pd)
- Organometallic chemistry and homogeneous catalysis
- Organometallic compounds
- Organometallic electrophilic catalysis (Au, Pt, Ir, Ag)
- Preparation, structure and reactivity of organometallic and coordination complexes
- Surface organometallic chemistry
- Use of organometallic in organic synthesis, particularly the arene chromium tricarbonyl series
-
oxide
- Active materials to be used in solid oxides fuel cells
- Catalysts for the reduction of nitrogen oxides under oxidizing conditions
- Computational heterogeneous catalysis, especially for micro-porous and oxide materials;
- Crystallochemistry of transition metal oxides
- Defects in oxides and their spectroscopic properties
- Electronic structure of catalysts based upon transition metal oxides
- Metal oxide chemistry: preparation and characterisation of innovative materials for catalysis and photocatalysis
- Nano-chemistry and nucleation: Simulation of nano-particulate oxides and of nucleation and pre-nucleation processes.
- Oxide surfaces
- Oxide ultrathin films on metals
- Oxides
- Photoxidation with oxides
- Porous materials, zeolites and metal oxides catalysts
- Semiconducting oxides for photocatalysis
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Solid state chemistry of oxides, chalcogenides and halides
- Surface chemistry of oxides
- Transparent conducting oxides
- Vanadium phosphorus oxide catalysts for maleic anhydride production
-
phase
- Chiral phases
- Computational study of systems in homogeneous phases
- Dynamics in phase space, including the application of information theory
- Fluoroarene-arene interactions in crystal engineering and liquid crystal phase behavior
- Frank-Kasper phases
- Gas and solution phase molecular spectroscopy, photochemistry and reaction dynamics
- Gas phase nucleation
- Gas phase reactions
- Gas phase studies of fullerenes and atomic clusters
- Integrated tools for physical-chemical processes in gas and condensed phases
- Molecular motion, disorder and phase transitions in crystalline solids
- Phase Transfer Catalysis (PTC)
- Phase transitions
- Phase transitions in particulate matter
- Supercritical fluids and high pressure phase behaviour
-
photocatalysis
- Heterogeneous photocatalysis
- Metal oxide chemistry: preparation and characterisation of innovative materials for catalysis and photocatalysis
- Photocatalysis
- Photocatalysis
- Photochemistry and photocatalysis, electron transfer and energy transfer
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Semiconducting oxides for photocatalysis
- Semiconductor photocatalysis
- Thin films for windows- photocatalysis
- TiO2 Photocatalysis
-
photochemistry
- Energy storage and conversion, catalysis, electrochemistry, new materials, photochemistry
- Gas and solution phase molecular spectroscopy, photochemistry and reaction dynamics
- Inorganic and organic photochemistry
- Kinetics and photochemistry
- Molecular photochemistry
- Photochemistry
- Photochemistry
- Photochemistry and photocatalysis, electron transfer and energy transfer
- Photochemistry and radiation chemistry
- Photochemistry, electrochemistry, spectroelectrochemistry
- Photophysics and photochemistry
- Photophysics and photochemistry of metal complexes
- Supramolecular Chemistry and photochemistry
- photochemistry and photophysics
-
physical
- Physical (organic) chemistry, surface science
- Physical Chemistry
- Physical Chemistry of Disperse Systems and Surfactants
- Physical Chemistry of Solids
- Physical Chemistry, Environmental Catalysis, Chiral Catalysis, Photo(electro)catalysis, Biocatalysis, In-situ Characterization of Catalytic Reaction, Time-resolved Spectroscopy
- Physical Electrochemistry
- Physical Organic Chemistry
- Physical and analytical electrochemistry
- Physical biochemistry and bio-kinetics
- Physical biology of the cell
- Physical characterisation of nanomaterials
- Physical chemistry
- Physical chemistry of electrified solid-liquid Interfaces
- Physical chemistry of energy production
- Physical chemistry of materials
- Physical chemistry of materials
- Physical chemistry of materials, surfaces and interfaces
- Physical chemistry of polyelectrolytes and ionomers
- Physical chemistry of polymers
- Physical chemistry, surface and interface sciences
- Physical methods for surface study
- Physical organic chemistr
- Physical organic chemistry
- Physical techniques of catalysts and catalytic reaction characterization
- physical chemistry at surfaces and interfaces
-
polymer
- 2D carbon-rich conjugated polymers for electronic and optoelectronic applications
- 2D polymers and supramolecular polymers
- Biodegradable polymers
- Biodegradable polymers: monomers, catalytic systems, applications
- Biomimetic polymers
- Coil-globule transitions, associating polymers
- Computer simulation of polymer systems
- Conducting polymers
- Dendritic and other functional polymers
- Development of novel electrochemical biosensors and immunosensors on the basis of conductive polymers
- Diffusion in polymers, composites, mathematical modeling and membrane science
- Dynamics of concentrated polymer solutions and melts
- Eectronically conductive polymers
- Electrogenerated conducting and redox polymers
- Fluorescent nanoparticles based on synthetic polymers and lipids
- Functional polymers and magnetic nanoparticles
- Hybrid materials for conducting organic polymers (COP)
- Macromolecular chemistry and polymer science
- Metal-containing oligomers and polymers
- Metallodendritic polymers and functional nanoparticles (synthesis, properties and applications)
- Microphase separation in polymer systems
- Multi-dimensional polymers with complex shape-persistent architectures
- Nanomaterials, Materials science, Superconductivity, Molecular electronics, Lithium polymer batteries
- Oxygenated polymers
- Physical chemistry of polymers
- Polymer Dissolution: microelectronics and optical applications
- Polymer assembly
- Polymer chemistry
- Polymer chemistry
- Polymer liquid crystals
- Polymer science
- Polymer science
- Polymers
- Porous Coordination Polymers
- Proton-conducting polymer membranes
- Semiconducting polymers
- Sustainable polymers
- Synthesis and applications of functionalized electron-conducting polymer films
- Synthesis of conducting polymer/inorganic particles nanocomposites and their applications for organic catalysis and sensoring
- Synthesis of porphine-based electroactive polymers
- Synthesis of well-defined polymer architectures
- Theory of equilibrium and transport phenomena in electron-conducting polymer films
- Topological restrictions in polymer systems
- Two-dimensional polymers
-
process
- Advanced oxidation processes
- Analysis of DNA/RNA lesion processes by nucleotide analogues, tracers and high end mass spectrometry
- Catalysis and catalytic processes
- Catalytic continuous flow processes
- Catalytic processes and kinetics
- Characterisation and application of pulsed laser ablation processes
- Chemical Processes
- Chemical analysis of epigenetic modifications and processes
- Chemical processes on solid surfaces
- Computer-aided design of catalysts for sustainable energy processes, including CO2 reduction and biomass conversion to fuel
- Controlling crystal growth and transport processes in solid inclusion compounds
- Design of descriptors for chemical processes
- Development of processes and technologies for energy transition
- Electrochemical transduction of biological processes
- Flow processes
- Fundamentals of crystallization processes and polymorphism
- Geochemical processes
- Integrated tools for physical-chemical processes in gas and condensed phases
- Intercalation and insertion processes
- Mechanisms of heterogeneous, homogeneous and enzymatic catalytic processes
- Mechanistic and kinetic analysis of electrochemical reaction processes
- Modelling of structure and transport processes in cellular membranes
- Multiscale materials and process simulations
- Nano-chemistry and nucleation: Simulation of nano-particulate oxides and of nucleation and pre-nucleation processes.
- Photocatalytic processes and systems regulated by light
- Photochemical, electrochemical and photoelectrochemical studies of the processes involved in the photosynthetic systems
- Photoinduced Electron Transfer processes (Mimicking Photosynthesis)
- Process scaling up
- Radical chemistry: methodology and development of new cascade processes
- Radical processes
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Solid-state NMR spectroscopy, particularly the development of new techniques for in-situ studies of chemical processes
- Sustainable Processes (Green Chemistry)
- Sustainable chemical processes
- Sustainable energy and chemical processes
- Theory of chemical processes (catalysis, chemical kinetics, reactivity)
- Theory of transport processes in advanced flow cells
- photoinduced processes at surfaces , scanning probe microscopy and spectroscopy
-
property
- Analysis of NMR chemical shift and relation with reactivity and properties
- Computational prediction of properties of organic crystals
- Correlation between structure and magnetic and electronic properties of solid-state inorganic systems
- Defects in oxides and their spectroscopic properties
- Electronic properties of metal catalysts
- Fundamentals of solid inclusion compounds: incommensurate structures and dynamic properties
- Molecular materials with liquid crystalline properties for electronic and optoelectronic devices
- New materials with novel electronic, geometric and chemical properties
- Optical properties of materials
- Optical, electrical and mechanical properties of hybrid materials
- Photochemical properties of solids
- Photovoltaic properties of organic and inorganic semiconductors
- Quantum-chemical calculation of molecular properties
- Scale dependent physico-chemical properties
- Small metal clusters and nanoparticles supported on oxide surfaces, their chemical activity, diffusion and nucleation processes, catalytic properties
- Solid state properties
- Spectroscopic properties of complex systems and their reactivity
- Structure and property of catalysts
- Synthetic, structural, catalytic, photocatalytic, and biological properties of polyoxometalates
- Theoretical methods applied to the magnetic properties of inorganic molecular systems
- Theoretical studies for interpretation of properties and reactivity at the molecular level
- magnetic properties of polymetallic complexes
-
protein
- Dynamic characterization of peptides and proteins
- Hofmeister ion effects in protein salting out/salting in, denaturation, and enzymatic activity
- Metal transfer proteins
- Oligomeric proteins
- Protein amyloid formation
- Protein dynamics
- Protein engineering
- Protein expression and purification
- Protein film electrochemistry
- Protein folding
- Protein folding
- Protein folding and misfolding
- Proteins
- Proteins: post-translational modifications, misfolding
- Structure elucidation of alpha- and beta peptides, foldamers, miniproteins, structured- and unstructured proteins
- Synthetic protein surface mimetics
-
quantum
- Biosynthesis of semiconductor quantum dot materials
- Design and application of methods combining quantum mechanics and molecular mechanics
- Development of novel quantum chemical methods for strongly correlated systems
- Development of quantum chemical methods and programs
- Functional and quantum nanostructures
- Molecular spins for quantum technologies
- Nuclear quantum effects
- Quantum Chemistry
- Quantum Chemistry (mainly applications on the inorganic chemistry of heavy elements)
- Quantum chemistry
- Quantum chemistry and solid state methods
- Quantum control
- Quantum dots
- Quantum dynamics
- Quantum information science
- Quantum mechanical studies of reaction mechanisms on surfaces and in clusters
- Quantum thermodynamics
- Quantum transport
- Single-particle and Quantum Plasmonics
- Synthesis of Quantum Spin Liquids and other magnetic materials
- Use of quantum mechanics, atomistic modeling and other multi-scale modeling of the organic solid state
-
radical
- Conventional and controlled radical polymerizations
- Magnetic coupling in ionic solids, inorganic complexes and organic radicals