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Author:   Yamin Leprince-Wang (University of Paris-Est Marne-la-Vallée (UPEM), France)
Publisher:   ISTE Ltd and John Wiley & Sons Inc
Imprint:   ISTE Ltd and John Wiley & Sons Inc
Edition:   Volume 1
Dimensions:   Width: 16.50cm , Height: 1.30cm , Length: 24.10cm
Weight:   0.907kg
ISBN:  

9781848217188

ISBN 10:   1848217188
Pages:   144
Publication Date:   31 March 2015
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

PREFACE ix ACKNOWLEDGEMENTS xi INTRODUCTION xiii CHAPTER 1. PROPERTIES OF ZNO 1 1.1. Crystal structure of ZnO 1 1.2. Electrical properties of ZnO and Schottky junction ZnO/Au 3 1.3. Optical properties of ZnO 14 1.4. Piezoelectricity of ZnO 16 CHAPTER 2. ZNO NANOSTRUCTURE SYNTHESIS 21 2.1. Electrochemical deposition for ZnO nanostructure 22 2.1.1. Electrodeposition of monocrystalline ZnO nanowires and nanorods via template method 24 2.1.2. ZnO nanowire array growth via electrochemical road 29 2.2. Hydrothermal method for ZnO nanowire array grow 31 2.3. Comparative discussion on ZnO nanowire arrays obtained via electrodeposition and hydrothermal method 33 2.4. Influence of main parameters of hydrothermal method on ZnO nanowire growth morphology 36 2.4.1. Effect of the growth method 36 2.4.2. Effect of the growth solution pH value 38 2.4.3. Effect of the growth temperature 40 2.4.4. Effect of the growth time 41 2.5. Electrospinning method for ZnO micro/nanofiber synthesis 44 CHAPTER 3. MODELING AND SIMULATION OF ZNO-NANOWIREBASED ENERGY HARVESTING 49 3.1. Nanowire in bending mode 51 3.1.1. Influence of the nanowire length 54 3.1.2. Influence of the nanowire diameter 55 3.1.3. Influence of the aspect ratio 56 3.2. Nanowire in compression mode 57 3.2.1. Influence of the nanowire length 58 3.2.2. Influence of the nanowire diameter 59 3.2.3. Influence of the aspect ratio 59 3.3. Nanowire arrays in static and vibrational responses 61 3.3.1. Nanowire arrays in static and compressive responses 61 3.3.2. Nanowire arrays in periodic vibrational response 62 CHAPTER 4. ZNO-NANOWIRE- BASED NANOGENERATORS: PRINCIPLE, CHARACTERIZATION AND DEVICE FABRICATION 65 4.1. Working principle of nanogenerators 67 4.2. ZnO-nanowire-based energy harvesting device fabrication 75 4.3. ZnO-nanowire-based energy harvesting device characterization 81 4.4. ZnO-nanostructure-based hybrid nanogenerators 96 CONCLUSION 105 BIBLIOGRAPHY 109 INDEX 121

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Author Information

Yamin LEPRINCE-WANG, Professor, University of Paris-Est Marne-la-Vallée (UPEM), France.

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