tipo de financiamento |
European Comission |
programa |
COST Actions |
acrónimo/
referência |
HINT |
referência alternative |
MP1202 |
grupo(s) de investigação |
1 - nanomateriais inorgânicos funcionais e híbridos orgânico-inorgânico; |
departamento |
Physics (DF) |
período de execução |
2012-12-10 - 2016-12-09 (
48 Meses )
|
resumo/
palavras-chave |
Hybrid organic-inorganic (HOI) materials synthesized using soft inorganic chemistry allow a combination of organic and inorganic units at molecular/nanoscale level, thereby opening access to a wide spectrum of multifunctionality not possible with traditional concepts of materials science. These innovative multifunctional materials will have a major impact in many application domains (optics, electronics, mechanics, protective coatings, catalysis, and sensors). The nanostructure, degree of organization and properties of such materials do not only depend on the chemical nature and the synergies between their nano-units, but they also strongly rely on the interface they share. As a consequence, this research network will carry out detailed investigations of the design, control, and dynamics of HOI interfaces. Key actions for this COST Action are: a) improved characterization methods of interfaces, b) innovative computational approaches, and simulation of the interaction processes, c) in situ studies of dynamic aspects controlling the formation of this interface, d) role of the interface for process optimisation, devices, and applications. The research programme of this COST Action fits perfectly with the technological requirements for hybrid materials identified by European industry defined by the European Technology Platform SusChem. The COST Action will contribute to enhance the position of European industry R&D, through creation of patents and industry collaborations |
coordenador
/ip local |
Luís António Ferreira Martins Dias Carlos |
ciceco status |
Parceiro |
instituíção proponente |
Centre national de la recherche scientifique |
instituições participante(s) |
Austria; Materials Chemistry Group, University Salzburg; Belgium; Institute of Condensed Matter and Nanosciences (IMCN), Université Catholique de Louvain; Theoretical Physical Chemistry group (TPC), Dept of Chemistry, University Liege; Bulgaria; Open Laboratory on Experimental Mechanics of Micro and Nanomaterials (OLEM), Institute of Mechanics, Bulgarian Academy of Sciences, Sofia; Department for Chemistry and biochemistry, physiology and pathophysiology, Faculty of Medicine, Sofia University; Croatia; Laboratory for physical chemistry of aquatic systems, Ru?er Boškovi? Institute, Zagreb; Czech Republic; Institute of Macromolecular Chemistry, Academy of Sciences of the Czech Republic, Prague; Finland; Laboratory of Fibre and Cellulose Technology, Åbo Akademi University; Nanomagnetism and Spintronics Group, Aalto University; Laboratory of Materials Chemistry and Chemical Analysis, University of Turku; France; Institute for Condensed Matter Chemistry Bordeaux (ICMCB), CNRS / University Bordeaux; Institute of Molecular Sciences (ISM), University Bordeaux; Institut Européen de Chimie et Biologie (IECB), University Bordeaux; Institute of Physics and Chemistry of Materials of Strasbourg (IPCMS), University Strasbourg; Institute of Analytical Sciences & Physical-chemistry for Environment & Materials (IPREM), University Pau; Institute Charles Gerhardt Montpellier (ICGM), University Montpellier; Centre Interuniversitaire de Recherche et d’Ingénierie des Matériaux (CIRIMAT), CNRS / University Toulouse; Institut de Chimie de Clermont-Ferrand, University Clermond-Ferrand; Laboratoire Chimie de la Matière Condensée (LCMC), University Pierre et Maris Curie, Paris; Germany; Fraunhofer Institute for Silicate Research (ISC), Wuerzburg; Laboratory of Supramolecular & Materials Chemistry, University Potsdam; Polyonic Liquids Group, Max Planck Institute of Colloids and Interfaces, Potsdam; Physical Chemistry Group, Dept. Of Chemistry, University Konstanz; Greece; Institute of Electronic Structure and Laser, Foundation for Research and Technology-Hellas, Heraklion; NANO group, Center of Materials Technology & Photonics (CEMATEP), Technical Educational Institute (T.E.I), Heraklion; NanoMaterials and Manufacturing Processes Laboratory (NanoMaMa Lab), T.E.I. of Western Macedonia, Kozani; Laboratory of Physical Chemistry, University of Thessaloniki; Department of Applied Mathematics, University of Crete; Ireland; Centre for Research on Adaptive Nanostructures and Nanodevices (CRANN), Trinity College, Dublin; Israel; Department of Chemistry, Hebrew University of Jerusalem; Italy; Department of Industrial Engineering, University of Trento; Institute of Chemical Sciences, Faculty of Science, University of Urbino; Materials Science and Nanotechnology Lab (LMNT), University Sassari; Department of Material Science, University of. Milano-Bicocca; Department of Chemistry, University of Torino; X-ray Spectroscopy Laboratory, Istituto di Struttura della Materia, Rome; Nanophysics Group, Dept of Physics, University of Pisa; Institute of Polymers, Composites and Biomaterials, National Research Council, Portici (NA); ; Lithuania; Sol-Gel Chemistry Group, Department of Inorganic Chemistry, Vilnius University; Netherlands; Bioinspired Materials and Interfaces Group, Eindhoven University; Norway; SINTEF Materials and Chemistry Division, Trondheim; Poland; Institute of Physics, University Chestochowa; Photophysics Department, Szewalski Institute, Polish Academy of Science, Gdansk; Portugal; Centre for Research in Ceramic and Composite Materials (CICECO), University Aveiro; Chemistry Center of Vila Real (CQ-VR), Universidade de Trás-os-Montes e Alto Douro, Vila Real; Romania; Nanostructured Materials Laboratory, Institute for Non-Ferrous And Rare Metals, Pantelimon; Serbia; Center for Catalysis and Chemical Engineering, Institute of Chemistry, University Belgrade; Slovenia; Department for Condensed Matter Physics, Jozef Stefan Institute; Laboratory for Chemistry of Materials, Ljubljana; Spain; Institute for Materials Science Barcelona (ICMAB), CSIC; Multifunctional Materials Group, Dept of Chemistry, University Jaume; Nanostructured Hybrid, Biohybrid & Porous Materials Group, Institute for Materials Science Madrid (ICMM), CSIC, Madrid; Institute of Physical Chemistry "Rocasolano", Madrid; IMDEA Nanociencia, Madrid; Sweden; Department of Chemistry, Swedish University of Agricultural Sciences, Uppsala; Department of Materials and Environmental Chemistry, Stockholm University; Switzerland; EMPA (Eidgenössische Materialprüfungs- und Forschungsanstalt), Dübendorf; Biomedical and Pharmaceutical Technologies Laboratory, Scuola Universitaria Professionale della Svizzera italiana (SUPSI), Manno; Turkey; Advanced Composites and Polymer Processing Laboratory (AC2PL), Sabanci University; Department of Chemical Engineering, Selcuk University; Materials Institute, Marmara Research Centre, Gebze; Functional Nanomaterials Lab, Marmara/Istanbul; United Kingdom; Laboratory for Inorganic Colloidal Nanocrystals and Applications, Department of Physics, Southampton University; Biomaterials Group, Imperial College, London; Adaptive and Intelligent Materials Lab, Department of Materials Science and Metallurgy, University of Cambridge; ;
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participação industrial |
Não |
parceiro(s) internacional |
Sim |
link |
http://www.cost-hint.cnrs.fr/
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Tailoring Functional Chitosan-Based Composites for Food ApplicationsNunes, C; Coimbra, MA; Ferreira, P 2018, CHEMICAL RECORD, 18, 07-Aug, 1138-1149.
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Magnetic and luminescent coordination networks based on imidazolium salts and lanthanides for sensitive ratiometric thermometryFarger, P; Leuvrey, C; Gallart, M; Gilliot, P; Rogez, G; Rocha, J; Ananias, D; Rabu, P; Delahaye, E 2018, BEILSTEIN JOURNAL OF NANOTECHNOLOGY, 9, 2775-2787.
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Di-ureasil Hybrid Electrolytes Incorporating a New Proton Ionic LiquidCardoso, MA; Leones, R; Rodrigues, LC; Fernandes, M; Figueiredo, FL; Nunes, SC; Silva, MM; Bermudez, VD 2016, CHEMELECTROCHEM, 3, 5, 783-789.
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Scale up the collection area of luminescent solar concentrators towards metre-length flexible waveguiding photovoltaicsCorreia, SFH; Lima, PP; Pecoraro, E; Ribeiro, SJL; Andre, PS; Ferreira, RAS; Carlos, LD 2016, PROGRESS IN PHOTOVOLTAICS, 24, 9, 1178-1193.
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Insights into CO2 and CH4 Adsorption by Pristine and Aromatic Amine-Modified Periodic Mesoporous Phenylene-SilicasLourenco, MAO; Siquet, C; Santos, J; Jorge, M; Gomes, JRB; Ferreira, P 2016, JOURNAL OF PHYSICAL CHEMISTRY C, 120, 26, 14236-14245.
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Clay-Graphene Nanoplatelets Functional Conducting CompositesRuiz-Hitzky, E; Sobral, MMC; Gomez-Aviles, A; Nunes, C; Ruiz-Garcia, C; Ferreira, P; Aranda, P 2016, ADVANCED FUNCTIONAL MATERIALS, 26, 41, 7394-7405.
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Ion conducting and paramagnetic d-PCL(530)/siloxane-based biohybrids doped with Mn2+ ionsPereira, RFP; Donoso, JP; Magon, CJ; Silva, IDA; Cardoso, MA; Goncalves, MC; Sabadini, RC; Pawlicka, A; Bermudez, VD; Silva, MM 2016, ELECTROCHIMICA ACTA, 211, 804-813.
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Synergistic photoluminescence enhancement in conjugated polymer-di-ureasil organic-inorganic compositesWillis-Fox, N; Marques, AT; Arlt, J; Scherf, U; Carlos, LD; Burrows, HD; Evans, RC 2015, CHEMICAL SCIENCE, 6, 12, 7227-7237.
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Turning periodic mesoporous organosilicas selective to CO2/CH4 separation: deposition of aluminium oxide by atomic layer depositionLourenco, MAO; Silva, RM; Silva, RF; Pinna, N; Pronier, S; Pires, J; Gomes, JRB; Pintof, ML; Ferreira, P 2015, JOURNAL OF MATERIALS CHEMISTRY A, 3, 45, 22860-22867.
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Easily processable multimodal spectral converters based on metal oxide/organic-inorganic hybrid nanocompositesJulian-Lopez, B; Gonell, F; Lima, PP; Freitas, VT; Andre, PS; Carlos, LD; Ferreira, RAS 2015, NANOTECHNOLOGY, 26, 40,
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High-efficiency luminescent solar concentrators for flexible waveguiding photovoltaicsCorreia, SFH; Lima, PP; Andre, PS; Ferreira, RAS; Carlos, LD 2015, SOLAR ENERGY MATERIALS AND SOLAR CELLS, 138, 51-57.
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Di-amidosils with tunable structure, morphology and emission quantum yield: the role of hydrogen bondingNunes, SC; Hummer, J; Freitas, VT; Ferreira, RAS; Carlos, LD; Almeida, P; Bermudez, VD 2015, JOURNAL OF MATERIALS CHEMISTRY C, 3, 26, 6844-6861.
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Eu3+-Based Bridged Silsesquioxanes for Transparent Luminescent Solar ConcentratorsFreitas, VT; Fu, LS; Cojocariu, AM; Cattoen, X; Bartlett, JR; Le Parc, R; Bantignies, JL; Man, MWC; Andre, PS; Ferreira, RAS; Carlos, LD 2015, ACS APPLIED MATERIALS & INTERFACES, 7, 16, 8770-8778.
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Engineering lanthanide-optical centres in IRMOF-3 by post-synthetic modificationAbdelhameed, RM; Carlos, LD; Silva, AMS; Rocha, J 2015, NEW JOURNAL OF CHEMISTRY, 39, 6, 4249-4258.
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Designing Near-Infrared and Visible Light Emitters by Postsynthetic Modification of Ln(+3)-IRMOF-3Abdelhameed, RM; Carlos, LD; Rabu, P; Santos, SM; Silva, AMS; Rocha, J 2014, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, 31, 5285-5295.
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Luminescent solar concentrators: challenges for lanthanide-based organic-inorganic hybrid materialsCorreia, SFH; Bermudez, VD; Ribeiro, SJL; Andre, PS; Ferreira, RAS; Carlos, LD 2014, JOURNAL OF MATERIALS CHEMISTRY A, 2, 16, 5580-5596.
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Cobalt(II)-pyrazine-chloride coordination polymers: synthesis, reactivity and magnetic propertiesde Campos, EA; Silva, NJO; Shi, FN; Rocha, J 2014, CRYSTENGCOMM, 16, 45, 10439-10444.
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Green Li+- and Er3+-doped poly(epsilon-caprolactone)/siloxane biohybrid electrolytes for smart electrochromic windowsFernandes, M; Freitas, VT; Pereira, S; Fortunato, E; Ferreira, RAS; Carlos, LD; Rego, R; Bermudez, VD 2014, SOLAR ENERGY MATERIALS AND SOLAR CELLS, 123, 203-210.
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Investigation of calcium carbonate precipitated in the presence of alkanolsFernandes, M; Paz, FAA; Mano, JF; Bermudez, VD 2014, CRYSTAL RESEARCH AND TECHNOLOGY, 49, 6, 418-430.
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Role of the reactive atmosphere during the sol-gel synthesis on the enhancing of the emission quantum yield of urea cross-linked tripodal siloxane-based hybridsFreitas, VT; Lima, PP; Ferreira, RAS; Carlos, LD; Pecoraro, E; Ribeiro, SJL; Bermudez, VD 2014, JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY, 70, 2, 227-235.
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