这本专著很详细，也很全面，简要的目录摘录出来。各位师弟师妹，加油哦。
Edited By Ru-Shi Liu
Pan Stanford Publishing
CRC Press
Taylor & Francis Group
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Version Date: 2012919
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Content
1.  An Introduction of Controlled Sizes and Shapes of Nanostructured Materials and Their Applications
2. Spatial Separation of Reaction Sites on Rutile TiO2 Nanorod by Exposing Crystal Faces and Development of Visible Light Responsive Rutile TiO2Nanorod
3. Controlled Shaping TiO2for Efϐicient Photocatalysis
4.  Shape and Particle Size Controlled for Water Splitting
5.  Characterization of TiO2 Nanoparticles Cytotoxicity
6.  Functionalized Porous Materials as Drug Carriers
7.  Shape and Size Selective Synthesis of Gold Nanostructures for Biomedical Applications
8.  Shape-Controlled Synthesis of Nanocrystals and Their Facet-Dependent Properties
9.  Size- and Shape-Controlled Hybrid Inorganic Nanomaterials and Application for Low- Temperature CO Oxidation
10. Shape-Controlled Synthesis of Metal Oxide Nanocrystals
11. Self-Assembly: A Novel Way to Fabricate Nanomaterials
12. Shape-Controlled Synthesis of Platinum Nanostructures as Electrocatalyst for PEM Fuel Cell Applications
13. Controlled Particle Size and Shape of Nanomaterials and Their Applications in Supercapacitors
14. Nano/Composite Materials for Lithium-ion Batteries
15. Controlled Size and Shape of Graphene and Its Application in Li-ion Battery
16. Controlled Growth of Quantum Dots and Their Application as Wavelength Converters for LEDs
17. Artiϐicial Nanostructures with Controlled Sizes and Shapes for Field Emission Displays
Preface
Today, there is global consensus on the importance of nanotechnology.
The  major  economies  of  the  world  depend  on  important  areas  of
nanotechnology  for  science  and  technology  development.  When
the  size  and  the  shape  of  materials  are  reduced  to  the  nanoscale
dimension,  their  physical  and  chemical  properties  can  change
dramatically. This book focuses on the controlled size and shape of
nanostructured  materials  and  their  applications.  The  applications
cover  a  broad  ϐield,  especially  energy-related  uses.  The  book  may
be  the  ϐirst  to  clearly  point  out  the  relationship  between  the size
and  the  structure  of  the  materials,  which  strongly  affects  their
properties. Understanding these control parameters has important
technological  implications  for  energy  conversion  and  storage,
biotechnology, lighting and display, and so forth.
The content is organized into 17 chapters. Chapter 1 introduces
readers to the theme of the book. Chapters 2 to 5 present examples
of  crystal  faces  of  TiO2
and ZnO and the effects of shaping on
their  photocatalysis  and  cytotoxicity.  Chapter  6  is  a  review  of
functionalized porous materials as drug carriers. Chapters 7 and 8
focus on the shape- and size-selective synthesis of gold nanomaterials
for  biomedical  and  photocatalytic  applications.  Chapters  9  to  11
demonstrate the size- and shape-controlled self-assembly of hybrid
inorganic nanomaterials and their application for low-temperature
CO  oxidation.  Chapters  12  to  17  focus  on  the  shape-controlled
synthesis  of  nanostructured  materials  for  application  in  fuel  cells,
supercapacitors,  Li-ion  batteries,  light-emitting  diodes,  and  ϐield
emission display.
I thank the authors, globally recognized in their ϐields, for their
invaluable contributions, which have made this book comprehensive
and a very useful reference for scientists and students.
Ru-Shi Liu

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