Coverart for item
The Resource Triboelectric nanogenerators, Zhong Lin Wang, Long Lin, Jun Chen, Simiao Niu, Yunlong Zi, (electronic book)

Triboelectric nanogenerators, Zhong Lin Wang, Long Lin, Jun Chen, Simiao Niu, Yunlong Zi, (electronic book)

Label
Triboelectric nanogenerators
Title
Triboelectric nanogenerators
Statement of responsibility
Zhong Lin Wang, Long Lin, Jun Chen, Simiao Niu, Yunlong Zi
Creator
Contributor
Author
Author
Subject
Language
eng
Member of
Cataloging source
IDEBK
http://library.link/vocab/creatorName
Wang, Zhong Lin
Dewey number
621.042
Illustrations
illustrations
Index
index present
LC call number
  • TK4058
  • QC71.82-73.8
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
  • Lin, Long
  • Chen, Jun
  • Niu, Simiao
  • Zi, Yunlong
Series statement
Green energy and technology,
http://library.link/vocab/subjectName
  • Magneto-electric machines
  • Nanoelectromechanical systems
  • Tribology
Label
Triboelectric nanogenerators, Zhong Lin Wang, Long Lin, Jun Chen, Simiao Niu, Yunlong Zi, (electronic book)
Instantiates
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Abbreviations; Symbols; Abstract; 1 Triboelectrification; 1.1 Nano Energy and Mega Energy; 1.2 Triboelectric Effect; 1.3 Quantification of Triboelectrification; 1.4 Materials for Triboelectrification; 1.5 Van de Graaff Generator; 1.6 Triboelectric Nanogenerators; 1.6.1 Vertical Contact-Separation Mode; 1.6.2 Lateral Sliding Mode; 1.6.3 Single-Electrode Mode; 1.6.4 Freestanding Triboelectric-Layer Mode; 1.7 Perspectives; References; Fundamental Operation Modes; 2 Triboelectric Nanogenerator: Vertical Contact-Separation Mode; 2.1 Basic Principle; 2.2 Fundamental Theory
  • 2.3 Basic Device Structures2.3.1 Spacer Structure; 2.3.2 Arch-Shaped Structure; 2.3.3 Spring-Assisted Separation Structure; 2.3.4 Multiple Layer Integration; 2.3.5 Microcavity-Nanoparticle Assembled Structure; 2.4 Summary; References; 3 Triboelectric Nanogenerator: Lateral Sliding Mode; 3.1 Basic Principle; 3.2 Fundamental Theory; 3.2.1 Sliding-Mode TENG with Only One Unit; 3.2.2 Grating TENGs; 3.2.2.1 Grating Structure with Equal-Length Plates; Influence of Electrode Structure; Influence of Number of Grating Units; 3.2.2.2 Grating Structure with Unequal-Length Plates
  • Influence of Dielectric ThicknessInfluence of Number of Grating Units; 3.3 Basic Device Structures; 3.3.1 Plain-Sliding Structure; 3.3.2 Linear-Grating Structure; 3.3.3 Rotation-Disk Structure; 3.3.4 Rotation-Cylinder Structure; 3.3.5 Case-Encapsulated Structure; 3.3.6 Liquid-Metal Structure; 3.4 Energy Conversion Efficiency; 3.4.1 Solid-Solid; 3.4.2 Solid-Liquid; 3.5 Summary; References; 4 Triboelectric Nanogenerator: Single-Electrode Mode; 4.1 Basic Principle; 4.2 Fundamental Theory; 4.2.1 Basic Working Principle and Electrostatic Shield Effect; 4.2.2 Effect of Electrode Gap Distance
  • 4.2.3 Effect of Area Size (Length)4.2.4 Effect of Spacing Between Units for Scale up; 4.3 Basic Device Structures; 4.3.1 Contact-Separation Structure; 4.3.2 Lateral Sliding Structure; 4.4 Summary; References; 5 Triboelectric Nanogenerator: Freestanding Triboelectric-Layer Mode; 5.1 Sliding Freestanding Triboelectric-Layer TENG; 5.1.1 Basic Principle; 5.1.2 Fundamental Theory; 5.2 Contact Freestanding Triboelectric-Layer TENG; 5.2.1 Basic Principle; 5.2.2 Fundamental Theory; 5.3 Advanced Device Structures; 5.3.1 Linear-Grating Structure; 5.3.2 Rotation-Disk Structure I
  • 5.3.3 Rotation-Disk Structure II5.4 Rolling Friction Operation Mode; 5.5 Energy Conversion Efficiency; 5.6 Summary; References; 6 Theoretical Modeling of Triboelectric Nanogenerators; 6.1 Inherent Capacitive Behavior and Governing Equations: V-Q-x Relationship; 6.2 First-Order Lumped-Parameter Equivalent Circuit Model; 6.3 Charge Reference State; 6.3.1 Influence of Charge Reference State on the Intrinsic Characteristics of TENGs; 6.3.2 Influence of Charge Reference State on the Output Characteristics of TENGs; 6.3.3 Typical Charge Reference States; 6.4 Resistive Load Characteristics
Control code
SPR957318375
Extent
1 online resource (xxxiii, 517 pages)
Form of item
online
Isbn
9783319400389
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Other physical details
illustrations (some color).
Specific material designation
remote
Label
Triboelectric nanogenerators, Zhong Lin Wang, Long Lin, Jun Chen, Simiao Niu, Yunlong Zi, (electronic book)
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Abbreviations; Symbols; Abstract; 1 Triboelectrification; 1.1 Nano Energy and Mega Energy; 1.2 Triboelectric Effect; 1.3 Quantification of Triboelectrification; 1.4 Materials for Triboelectrification; 1.5 Van de Graaff Generator; 1.6 Triboelectric Nanogenerators; 1.6.1 Vertical Contact-Separation Mode; 1.6.2 Lateral Sliding Mode; 1.6.3 Single-Electrode Mode; 1.6.4 Freestanding Triboelectric-Layer Mode; 1.7 Perspectives; References; Fundamental Operation Modes; 2 Triboelectric Nanogenerator: Vertical Contact-Separation Mode; 2.1 Basic Principle; 2.2 Fundamental Theory
  • 2.3 Basic Device Structures2.3.1 Spacer Structure; 2.3.2 Arch-Shaped Structure; 2.3.3 Spring-Assisted Separation Structure; 2.3.4 Multiple Layer Integration; 2.3.5 Microcavity-Nanoparticle Assembled Structure; 2.4 Summary; References; 3 Triboelectric Nanogenerator: Lateral Sliding Mode; 3.1 Basic Principle; 3.2 Fundamental Theory; 3.2.1 Sliding-Mode TENG with Only One Unit; 3.2.2 Grating TENGs; 3.2.2.1 Grating Structure with Equal-Length Plates; Influence of Electrode Structure; Influence of Number of Grating Units; 3.2.2.2 Grating Structure with Unequal-Length Plates
  • Influence of Dielectric ThicknessInfluence of Number of Grating Units; 3.3 Basic Device Structures; 3.3.1 Plain-Sliding Structure; 3.3.2 Linear-Grating Structure; 3.3.3 Rotation-Disk Structure; 3.3.4 Rotation-Cylinder Structure; 3.3.5 Case-Encapsulated Structure; 3.3.6 Liquid-Metal Structure; 3.4 Energy Conversion Efficiency; 3.4.1 Solid-Solid; 3.4.2 Solid-Liquid; 3.5 Summary; References; 4 Triboelectric Nanogenerator: Single-Electrode Mode; 4.1 Basic Principle; 4.2 Fundamental Theory; 4.2.1 Basic Working Principle and Electrostatic Shield Effect; 4.2.2 Effect of Electrode Gap Distance
  • 4.2.3 Effect of Area Size (Length)4.2.4 Effect of Spacing Between Units for Scale up; 4.3 Basic Device Structures; 4.3.1 Contact-Separation Structure; 4.3.2 Lateral Sliding Structure; 4.4 Summary; References; 5 Triboelectric Nanogenerator: Freestanding Triboelectric-Layer Mode; 5.1 Sliding Freestanding Triboelectric-Layer TENG; 5.1.1 Basic Principle; 5.1.2 Fundamental Theory; 5.2 Contact Freestanding Triboelectric-Layer TENG; 5.2.1 Basic Principle; 5.2.2 Fundamental Theory; 5.3 Advanced Device Structures; 5.3.1 Linear-Grating Structure; 5.3.2 Rotation-Disk Structure I
  • 5.3.3 Rotation-Disk Structure II5.4 Rolling Friction Operation Mode; 5.5 Energy Conversion Efficiency; 5.6 Summary; References; 6 Theoretical Modeling of Triboelectric Nanogenerators; 6.1 Inherent Capacitive Behavior and Governing Equations: V-Q-x Relationship; 6.2 First-Order Lumped-Parameter Equivalent Circuit Model; 6.3 Charge Reference State; 6.3.1 Influence of Charge Reference State on the Intrinsic Characteristics of TENGs; 6.3.2 Influence of Charge Reference State on the Output Characteristics of TENGs; 6.3.3 Typical Charge Reference States; 6.4 Resistive Load Characteristics
Control code
SPR957318375
Extent
1 online resource (xxxiii, 517 pages)
Form of item
online
Isbn
9783319400389
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Other physical details
illustrations (some color).
Specific material designation
remote

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