High-Entropy Materials for Energy Storage Devices
1st Edition
Published on 22. April 2026
Book
Hardback
480 pages
978-3-527-35558-7 (ISBN)
Description
Highlights the concept of various high entropy materials and their applications on electrochemical energy storage devices especially for battery and supercapacitor applications.
More details
Edition
1. Auflage
Language
English
Place of publication
Berlin
Germany
Target group
Professional and scholarly
Illustrations
41
34 s/w Tabellen, 7 farbige Abbildungen
Dimensions
Height: 247 mm
Width: 176 mm
Thickness: 30 mm
Weight
1040 gr
ISBN-13
978-3-527-35558-7 (9783527355587)
Schweitzer Classification
Other editions
Additional editions
Chien-Te Hsieh | Pradeep Kumar Panda | Arpan Kumar Nayak
High-Entropy Materials for Energy Storage Devices
E-Book
03/2026
1st Edition
Wiley-VCH
€151.99
Available for download
Chien-Te Hsieh | Pradeep Kumar Panda | Arpan Kumar Nayak
High-Entropy Materials for Energy Storage Devices
E-Book
03/2026
1st Edition
Wiley-VCH
€151.99
Available for download
Persons
Dr. Chien-Te Hsieh is currently a professor in Department of Chemical Engineering and Materials Science at Yuan Ze University, Taiwan. His research focuses on two main areas, (i) nanomaterial synthesis using atomic layer deposition (ALD), microwave deposition, and infrared-assisted methods, and (ii) energy storage applications, including Li-ion batteries, Na-ion batteries, solid-state batteries, electrochemical capacitors, and fuel cells. His research group published over 270 SCI papers and secured more than 40 patents.
Dr. Pradeep Kumar Panda is a post-doctoral researcher at Department of Chemical Engineering and Materials Science, Yuan Ze University, Taiwan. His field of research encompasses sustainable nanomaterials, electrochemical catalyst, energy device, polymer science, and biomaterials.
Dr. Arpan Kumar Nayak is working as an Assistant Professor at Regional Institute of Education (NCERT) Mysuru, India. His current research mainly focuses on the synthesis of various nanostructured materials and carbon-based materials towards environment and energy applications. He has published more than 110 articles in various international journals.
Dr. Pradeep Kumar Panda is a post-doctoral researcher at Department of Chemical Engineering and Materials Science, Yuan Ze University, Taiwan. His field of research encompasses sustainable nanomaterials, electrochemical catalyst, energy device, polymer science, and biomaterials.
Dr. Arpan Kumar Nayak is working as an Assistant Professor at Regional Institute of Education (NCERT) Mysuru, India. His current research mainly focuses on the synthesis of various nanostructured materials and carbon-based materials towards environment and energy applications. He has published more than 110 articles in various international journals.
Content
1 Overview of High Entropy Battery Materials: Surface Chemistry and its Functionality
2 Perovskite-Based High Entropy Materials for Energy Applications
3 Functional 2D-based high entropy materials for energy storage applications
4 Recent advancements for high entropy materials for the dielectric capacitor
5 Electro-kinetics of high entropy materials for energy storage devices
6 Importance of high entropy materials for energy storage applications
7 Noble-metal based high entropy oxides for energy storage applications
8 Noble-metal Free high-entropy oxides for energy storage applications
9 Noble-metal-based high entropy alloys for energy storage applications
10 Noble-metal free high entropy alloys for energy storage applications
11 Metal-free high entropy materials for energy storage applications
12 Metal-doped high entropy materials for energy storage applications
13 Nobel metal doped high entropy materials for energy storage applications
14 Morphology-dependent high entropy materials for energy storage applications
15 Industrial aspect of high entropy materials for energy storage applications
16 Current status, challenges, and future prospects of high Entropy materials
2 Perovskite-Based High Entropy Materials for Energy Applications
3 Functional 2D-based high entropy materials for energy storage applications
4 Recent advancements for high entropy materials for the dielectric capacitor
5 Electro-kinetics of high entropy materials for energy storage devices
6 Importance of high entropy materials for energy storage applications
7 Noble-metal based high entropy oxides for energy storage applications
8 Noble-metal Free high-entropy oxides for energy storage applications
9 Noble-metal-based high entropy alloys for energy storage applications
10 Noble-metal free high entropy alloys for energy storage applications
11 Metal-free high entropy materials for energy storage applications
12 Metal-doped high entropy materials for energy storage applications
13 Nobel metal doped high entropy materials for energy storage applications
14 Morphology-dependent high entropy materials for energy storage applications
15 Industrial aspect of high entropy materials for energy storage applications
16 Current status, challenges, and future prospects of high Entropy materials