Nanoparticles
Self-assembly and application to chemical sensors
Research in nanostructured materials is motivated by the belief that ability to control the building blocks or nanostructure of the materials can result in enhanced properties at the macroscale: increased hardness, ductility, magnetic coupling, catalytic enhancement, selective absorption, or higher efficiency electronic or optical behavior. Two approaches for the building up of nanoscopic features have been envisaged: top-down and bottom-up. Bottom-up approaches seek to have smaller (usually molecular) components built up into more complex assemblies, while top-down approaches seek to create nanoscale devices by using larger, externally-contr…
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Produktdetails
- ISBN: 978-3-659-63703-2
- EAN: 9783659637032
- Produktnummer: 37428376
- Verlag: LAP Lambert Academic Publishing
- Sprache: Englisch
- Erscheinungsjahr: 2014
- Seitenangabe: 168 S.
- Masse: H22.0 cm x B15.0 cm x D1.0 cm 268 g
- Abbildungen: Paperback
- Gewicht: 268
Über den Autor
Jun Tang, Associate Professor of North University of China, Taiyuan, China. He received his PhD diploma in the field of Micro/Nano devices and system from the department of Applied Physics in National Technical University of Athens, Greece.
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