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Synthesis and characterization of piezotronic materials for application in strain/stress sensing

Author: Ren Zhu; Rusen Yang
Publisher: Cham, Switzerland : Springer, 2018.
Series: Mechanical engineering series (Berlin, Germany)
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
This book explores the new materials and the resultant new field of piezotronics. The growth and alignment of the zinc oxide nanostructures are discussed in detail because of its wide adoption in this field and its significance in optics, health, and sensing applications. The characterization of the piezotronic effect and how to distinguish it from other similar but, fundamentally different effects, like  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Zhu, Ren.
Synthesis and characterization of piezotronic materials for application in strain/stress sensing.
Cham, Switzerland : Springer, 2018
(OCoLC)1005124316
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Ren Zhu; Rusen Yang
ISBN: 9783319700380 3319700383
OCLC Number: 1023426798
Description: 1 online resource
Contents: Intro; Preface; Contents; Chapter 1: Introduction to the Piezotronic Effect and Sensing Applications; 1.1 Introduction; 1.2 Principle of the Piezotronic Effect; 1.3 Piezotronic Material; Chapter 2: Growth of Uniform Nanowires with Orientation Control; 2.1 Overview of Zinc Oxide Nanowires; 2.2 Growth Techniques of Well-Aligned Zinc Oxide Nanowires; 2.3 Orientation Control; 2.4 Complex Nanostructures; Chapter 3: Alignment and Transfer of Nanowires in a Spinning Langmuir Film; 3.1 Introduction to Nanowire Post-growth Assembly Approaches. 3.2 Working Mechanism and Procedure of the Spinning-ÂƯLangmuir-ÂƯFilm Method3.3 Density Control; 3.4 Effect of the Surfactant and the Spinning on the Nanowire Alignment; 3.5 Adaptability and Scalability of the Spinning-Langmuir-ÂƯFilm Method; Chapter 4: Piezotronic Effect in a Zinc Oxide Nanowire; 4.1 Introduction to Piezoresistive Effect and Piezotronic Effect; 4.2 High-Yield Fabrication of a Single-Nanowire Device; 4.3 Direct Measurement of the Piezoresistive Effect of Zinc Oxide Nanowires; 4.4 Direct Measurement of the Piezotronic Effect of Zinc Oxide Nanowires. 4.5 Finite Element Analysis of the Single-Nanowire DeviceChapter 5: Ultra-Sensitive Strain/Stress Sensing; 5.1 Strain Sensing-Based Single Zinc Oxide Nanowire; 5.2 Strain Sensing Based on Vertical ZnO Nanowire Arrays; 5.3 Pressure Sensor Arrays Based on ZnO Nanowires; Chapter 6: Closure; References.
Series Title: Mechanical engineering series (Berlin, Germany)
Responsibility: Ren Zhu, Rusen Yang.

Abstract:

This book explores the new materials and the resultant new field of piezotronics. The characterization of the piezotronic effect and how to distinguish it from other similar but, fundamentally  Read more...

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