Janos H. Fendler – författare
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5 produkter
5 produkter
Inbunden, Engelska, 1996
3 231 kr
Skickas inom 10-15 vardagar
Research into nanoparticles is motivated by the demand for advanced materials having superior mechanical, thermal, electrical, optical, electro-optical, magnetic and electromagnetic properties. This volume present volume represents an integration of solid-state physical and "wet" chemical techniques for nanoparticle synthesis. Topicscovered include: biological, physical and chemical approaches to nanoparticle preparation; theories and modelling of nucleation, cluster growth, particle growth in solid and liquid states and at interfaces, characterization of particles prepared by different methods, applications as catalysts and in devices (sensors, electrical/optical and information storage), and future research directions.
E-bok
PDF, Engelska, 20082 549 kr
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In this concise handbook leading experts give a broad overview of the latest developments in this emerging and fascinating field of nano-sized materials. Coverage includes new techniques for the synthesis of nanoparticles as well as an in-depth treatment of their characterization and chemical and physical properties. The future applications of these advanced materials are also discussed. The wealth of information included makes this an invaluable guide for graduate students as well as scientists in materials science, chemistry or physics - looking for a comprehensive treatment of the topic.
Del 113 - Advances in Polymer Science
Membrane-Mimetic Approach to Advanced Materials
Häftad, Engelska, 2013
544 kr
Skickas inom 10-15 vardagar
Häftad, Engelska, 2010
3 231 kr
Skickas inom 10-15 vardagar
Research into nanoparticles is motivated by the demand for advanced materials having superior mechanical, thermal, electrical, optical, electro-optical, magnetic and electromagnetic properties. The present volume represents an integration of solid-state physical and 'wet' chemical techniques for nanoparticle synthesis. Topics covered include: biological, physical and chemical approaches to nanoparticle preparation; theories and modelling of nucleation, cluster growth, particle growth in solid and liquid states and at interfaces, characterization of particles prepared by different methods, applications as catalysts and in devices (sensors, electrical/optical and information storage), and future research directions. Audience: Students and researchers in biology, physics and chemistry interested in advanced materials synthesis and characterization.