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Functional Hybrid Materials
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Artikel-Nr:
9783527304844
Veröffentl:
2003
Seiten:
417
Autor:
Pedro Gómez-Romero
Gewicht:
1200 g
Format:
246x186x35 mm
Sprache:
Englisch
Beschreibung:
Pedro Gó;mez-Romero is a senior research scientist at the materials Science Institute of Barcelona (CSIC), Spain, where he leads a research group working on nanocomposites hybrid materials combining conducting polymers and oxides, clusters and active molecular species, developing energy storage and conversion applications such as duel cells, lithium batteries and supercapacitors. He obtained his B.S. and M.S. from the University of Valencia and his Ph.D. in Chemistry at Georgetown University, USA. He was a visiting scientist at the National Renewable Energy Laboratory at Golden (Co, USA) during 1998 and 1999 as a NATO senior fellow. Popularizing science is Dr. Gó;mez-Romero's favorite creative activity outside the lab and, aside from his more than one hundred scientific publications, he has authored an award-winning book and many popular science articles.
He is a member of the American Association for the Advancement of Science, the American Chemical Society, the materials Research Society, and the Electrochemical Society.
Clément Sanchez is Director of Research at the CNRS, heads the laboratory for condensed matter chemistry at University of Paris VI, and furthermore holds a professional teaching position at École Polytechnique. He studied chemistry at ENSC Paris, received his Ph.D. from the University Pierre et Marie Curie, Paris, and held a post-doctoral position at UC Berkeley, USA.
His main scientific interest focus on the study of the relationship between the optical and mechanical properties and the structures of molecularly designed hybrid materials, and on self-assembly processes to build hybrid and inorganic materials organized and textured at different length scales ranging from nano to macro sizes. He is recipient of several awards from IBM, the Société Chimique de France and the French Academy of Science as well as the CNRD Silver Medal. He is editor-in-chief of the New journal of Chemistry and co-author of over 250 scientific publications. He has also given over 50 invited lectures at international meetings.
He is a member of the American Association for the Advancement of Science, the American Chemical Society, the materials Research Society, and the Electrochemical Society.
Clément Sanchez is Director of Research at the CNRS, heads the laboratory for condensed matter chemistry at University of Paris VI, and furthermore holds a professional teaching position at École Polytechnique. He studied chemistry at ENSC Paris, received his Ph.D. from the University Pierre et Marie Curie, Paris, and held a post-doctoral position at UC Berkeley, USA.
His main scientific interest focus on the study of the relationship between the optical and mechanical properties and the structures of molecularly designed hybrid materials, and on self-assembly processes to build hybrid and inorganic materials organized and textured at different length scales ranging from nano to macro sizes. He is recipient of several awards from IBM, the Société Chimique de France and the French Academy of Science as well as the CNRD Silver Medal. He is editor-in-chief of the New journal of Chemistry and co-author of over 250 scientific publications. He has also given over 50 invited lectures at international meetings.
Materialien, die zum Zweck bestimmter, erwünschter Eigenschaften sowohl aus organischen als auch anorganischen Komponenten zusammen gesetzt werden, bezeichnet man als 'functional hybrid materials'. Der hybride Aufbau zielt darauf ab, die jeweiligen vorteilhaften chemischen, elektrochemischen, magnetischen oder optischen Eigenschaften der Einzelkomponenten so zu kombinieren, dass sich neue, in ihren Eigenschaften überlegene Materialien ergeben.
Die größte Herausforderung auf diesem Gebiet ist daher, Komponenten so zu kombinieren, dass sich ihre positiven Eigenschaften verstärken und ihre jeweiligen Schwächen oder Nachteile ausgeglichen oder zumindest reduziert werden, oder sich zu völlig neuem Materialverhalten ergänzen. Durch die Vielfalt an Bausteinen für solche Hybridmaterialien hat sich ein entsprechend großes, vielseitiges Arbeitsgebiet aufgetan, über das das herausragende Autorenkollektiv breit gefächert und ausführlich berichtet und dabei die Überlegenheit sorgfältig konzipierter funktionaler Hybridmaterialien eindrucksvoll demonstriert.
Die größte Herausforderung auf diesem Gebiet ist daher, Komponenten so zu kombinieren, dass sich ihre positiven Eigenschaften verstärken und ihre jeweiligen Schwächen oder Nachteile ausgeglichen oder zumindest reduziert werden, oder sich zu völlig neuem Materialverhalten ergänzen. Durch die Vielfalt an Bausteinen für solche Hybridmaterialien hat sich ein entsprechend großes, vielseitiges Arbeitsgebiet aufgetan, über das das herausragende Autorenkollektiv breit gefächert und ausführlich berichtet und dabei die Überlegenheit sorgfältig konzipierter funktionaler Hybridmaterialien eindrucksvoll demonstriert.
Here, a team of highly renowned experts gives an in-depth overview of the many fascinating facets of this field, illustrating the superiority of well-designed hybrid materials over conventional materials, and their potential applications as structural or functional materials in various fields.
Hybrid Materials, Functional Applications - An Introduction
Organic-Inorganic Materials - From Intercalation Chemistry to Devices
Bridged Polysilsesquioxanes - Molecular-Engineering Nanostructured Hybrid Organic-Inorganic Materials
Porous Inorganic-Organic Hybrid Materials
Optical Properties of Functional Hybrid Organic-Inorganic Nanocomposites
Electrochemistry of Sol-Gel Derived Hybrid Materials
Multifunctional Hybrid Materials Based on Conducting Organic Polymers - Nanocomposite Systems with Photo-Electro-Ionic Properties and Applications
Layered Organic-Inorganic Materials - A Way Towards Controllable Magnetism
Building Multifunctionality in Hybrid Materials
Hybrid Organic-Inorganic Electronics
Bioactive Sol-Gel Hybrids
Organic-Inorganic Materials - From Intercalation Chemistry to Devices
Bridged Polysilsesquioxanes - Molecular-Engineering Nanostructured Hybrid Organic-Inorganic Materials
Porous Inorganic-Organic Hybrid Materials
Optical Properties of Functional Hybrid Organic-Inorganic Nanocomposites
Electrochemistry of Sol-Gel Derived Hybrid Materials
Multifunctional Hybrid Materials Based on Conducting Organic Polymers - Nanocomposite Systems with Photo-Electro-Ionic Properties and Applications
Layered Organic-Inorganic Materials - A Way Towards Controllable Magnetism
Building Multifunctionality in Hybrid Materials
Hybrid Organic-Inorganic Electronics
Bioactive Sol-Gel Hybrids