Advanced Materials for Electrochemical Devices.

Format:

Book

Author/Creator:

Huang, Hao.

Contributor:

ScienceDirect (Online service)

Language:

English

Subjects (All):

Electrochemical apparatus--Materials.

Electrochemical apparatus.

Physical Description:

1 online resource (724 p.)

Place of Publication:

San Diego : Elsevier, 2023.

Contents:

Front Cover

Advanced Materials for Electrochemical Devices

Copyright Page

Contents

About the author

Preface

1 Materials development for electrochemical devices

1.1 Background

1.2 Materials research for electrochemical devices

References

2 Fundamentals of advanced electrode nanomaterials

2.1 Classification of nanomaterials

2.1.1 Zero-dimensional nanomaterials

2.1.2 One-dimensional nanomaterials

2.1.3 Two-dimensional nanomaterials

2.1.4 Porous materials

2.1.5 Core-shell structural nanomaterials

2.2 Synthetic principle of nanomaterials

2.2.1 Synthetic principles of chemical reactions

2.2.2 Synthetic principles of zero-dimensional nanomaterials

2.2.3 Synthetic principle of one-dimensional nanomaterials

2.2.4 Synthetic principle of two-dimensional nanomaterials

2.2.5 Morphology control of nanoparticles

2.3 Synthetic technology of nanomaterials

2.3.1 Chemical synthetic technologies

2.3.1.1 Hydrothermal/solvothermal method

2.3.1.2 Template synthesis method

2.3.1.3 Sol-gel method

2.3.2 Physical synthetic technologies

2.3.2.1 Physical vapor deposition

2.3.2.2 Electric arc plasma evaporation method

2.3.2.3 High-energy ball milling method

3 Electrochemical behavior of electrode materials

3.1 Electrochemical phases and interfaces

3.1.1 Two phases forming the interface

3.1.2 Electrode/solution interface

3.2 Electrode reaction

3.2.1 Electrode potential

3.2.2 Reversible electrode reaction and irreversible electrode reaction

3.2.3 Influence of electrode potential on activation energy of electrochemical reaction

3.2.4 Influence of electrode potential on electrode reaction rate

3.2.5 Influence of concentration polarization on electrode reaction rate

3.2.6 Influence of double electric layer structure on electrode reaction rate

3.3 Electrochemistry of secondary batteries

3.3.1 Overview of secondary batteries

3.3.2 Main parameters of secondary batteries

3.3.2.1 The electromotive force and open-circuit voltage of the batteries

3.3.2.2 Internal resistance of batteries

3.3.2.3 Discharge voltage of the batteries

3.3.2.4 Discharge current of the batteries

3.3.2.5 Charging voltage of the batteries

3.3.2.6 Specific capacity and specific energy of batteries

3.3.2.7 Power and power density of batteries

3.3.2.8 Self-discharge of batteries

3.3.2.9 Cycle life of batteries

3.4 Electrochemical testing of electrode materials

3.4.1 Steady-state test

3.4.1.1 Electrolytic electric quantity analysis

3.4.1.2 Steady-state current density-potential analysis

3.4.1.3 Rotating disk electrode

3.4.2 Nonsteady-state test

3.4.2.1 Potential step experiment

3.4.2.2 Cyclic voltammetry test

3.4.2.3 Alternating current impedance test

4 Advanced electrode materials of ion batteries

4.1 Overview

4.2 Principles of ion batteries

Notes:

4.2.1 Composition and classification of ion batteries

Electronic reproduction. Amsterdam Available via World Wide Web.

Other Format:

Print version: Huang, Hao Advanced Materials for Electrochemical Devices

ISBN:

9780443134890

0443134898

Publisher Number:

99996546317

Access Restriction:

Restricted for use by site license.