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Carbon Nanomaterials for Gas Adsorption
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Artikel-Nr:
9789814316439
Veröffentl:
2012
Erscheinungsdatum:
27.11.2012
Seiten:
498
Autor:
Maria Letizia Terranova
Gewicht:
794 g
Format:
231x155x33 mm
Sprache:
Englisch
Beschreibung:
Maria Letizia Terranova is professor of chemistry at the Faculty of Science, University Tor Vergata, Rome, Italy, heads the Department of Chemical Science and Technology, and coordinates the Interdisciplinary Micro- and Nano-structured Systems Laboratory (MINASlab). She teaches chemistry, solid-state characterizations, and nanostructured materials. Her research activity focuses on the synthesis, processing, and functional testing of nanomaterials. She is author of 240 papers in peer-reviewed journals, 3 books, and 4 patents.
Research in adsorption of gases by carbon nanomaterials has experienced considerable growth in recent years, with increasing interest for practical applications. Many research groups are now producing or using such materials for gas adsorption, storage, purification, and sensing. This book provides a selected overview of some of the most interesting scientific results regarding the outstanding properties of carbon nanomaterials for gas adsorption and of interest both for basic research and technological applications. Topics receiving special attention in this book include storage of H, purification of H, storage of rare gases, adsorption of organic vapors, gas trapping and separation, and metrology of gas adsorption.
Techniques for the Measurement of Gas Adsorption by Carbon Nanostructure. The Physical and Chemical Interactions of Hydrogen with Carbonaceous Nanostructures. Hydrogen Storage in Carbon Aerogels. Gases Adsorption by Fullerenes and Polyhedral Multi-Wall Carbon Nanostructures. Structural and Electronic Properties of Hydrogenated Grapheme. Gas Desorption from Detonation Nanodiamonds During Temperature Programmed Pyrolysis. Modelling Gas Adsorption on Carbon Nanotubes. Atomistic Simulation of Gas Adsorption in Carbon Nano-Structures. Carbon Nanotubes for Gas Sensing Applications: Principles and Transducers.