Concepts of nanochemistry
Author(s)
Bibliographic Information
Concepts of nanochemistry
Wiley-VCH, c2009
- : [hbk]
- : pbk
Available at / 10 libraries
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The Institute for Solid State Physics Library. The University of Tokyo.図書室
: pbk431:C107210307067
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
Authored by a rising star in the field and one of its pioneers, this textbook is ideal for interdisciplinary courses - bridging chemistry, materials science, physics and biology. Adopting a completely new and visionary approach, this is a unique learning tool, focusing on just six concepts crucial for understanding nanochemistry: surface, size, shape, self-assembly, defects and the interface of biology and nanochemistry. These concepts are elucidated through the analysis of six materials representing the real life application of the nanochemistry concepts. The teaching questions included provide real 'food for thought', thus training students to think as a researcher does and so develop problem-solving skills. '...In condensing the massive, diverse, and seemingly unrelated fields of nanochemistry...they [the authors] have once again produced a coherent manual that fully embraces nanochemistry in all its guises, and, in the process, have have created ingenuous ways to connect and relate important concepts in this field.
This book will no doubt become a favorite for teachers who want to introduce students to various concepts and approaches of nanochemistry, and will allow a student to get a clear picture of the entire field of nanochemistry from one source...' - Matthew Rycenga and Prof. Younan Xia, Department of Biomedical Engineering, Washington University, St. Louis (USA).
Table of Contents
Foreword. About the Authors. Acknowledgments. Introduction. Nanochemistry - Why Should We Care?. What is Nanochemistry?. This Book - Instructions for Use. References. 1 An Introduction to Nanochemistry Concepts. 1.1 Nanochemistry - What.s in a Name?. 1.2 On the Surface of Things. 1.3 Size is Everything...Almost. 1.4 Shape. 1.5 Self-Assembly. 1.6 Two Words About Defects. 1.7 The Bio-Nano Interface. 1.8 Safety. References. 2 Silica. 2.1 Introduction. 2.2 Surface. 2.3 Size. 2.4 Shape. 2.5 Self-Assembly. 2.6 Defects. 2.7 BioNano. 2.8 Conclusion. 2.9 Silica - NanoFood for Thought. References. 3 Gold. 3.1 Introduction. 3.2 Surface. 3.3 Size. 3.4 Shape. 3.5 Self-Assembly. 3.6 Defects. 3.7 BioNano. 3.8 Gold - NanoFood for Thought. References. 4 Polydimethylsiloxane. 4.1 Introduction. 4.2 Surface. 4.3 Size. 4.4 Shape. 4.5 Self-Assembly. 4.6 Defects. 4.7 BioNano. 4.8 PDMS - NanoFood for Thought. References. 5 Cadmium Selenide. 5.1 Introduction. 5.2 Surface. 5.3 Size. 5.4 Shape. 5.5 Self-Assembly. 5.6 Defects. 5.7 BioNano. 5.8 CdSe - NanoFood for Thought. References. 6 Iron Oxide. 6.1 Introduction. 6.2 Surface. 6.3 Size. 6.4 Shape. 6.5 Self-Assembly. 6.6 BioNano. 6.7 Iron Oxide - NanoFood for Thought. References. 7 Carbon. 7.1 Introduction. 7.2 Surface. 7.3 Size. 7.4 Shape. 7.5 Self-Assembly. 7.6 BioNano. 7.7 Conclusion. 7.8 Carbon - NanoFood for Thought. References. 8 Nanochemistry Case Histories. 8.1 Introduction. 8.2 Case #1. 8.3 Case #2. 8.4 Conclusions. References. 9 Nanochemistry Diagnostics. 9.1 A Reference Sheet. 9.2 Microscopy Techniques. 9.3 Diffraction Techniques. 9.4 Spectroscopic Techniques. 9.5 Magnetic Techniques. 9.6 Separation Techniques. 9.7 Thermal Techniques. 9.8 Adsorption Techniques. 9.9 Electrical Techniques. 10 Challenges in Nanochemistry. References. Index.
by "Nielsen BookData"