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E-grāmata: High Entropy Materials: Fundamentals to Emerging Applications

Edited by , Edited by (Pittsburg State Univ)
  • Formāts: 326 pages
  • Izdošanas datums: 25-Jul-2024
  • Izdevniecība: CRC Press
  • Valoda: eng
  • ISBN-13: 9781040043530
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High Entropy Materials: Fundamentals to Emerging ApplicationsPalielināt
  • Formāts: 326 pages
  • Izdošanas datums: 25-Jul-2024
  • Izdevniecība: CRC Press
  • Valoda: eng
  • ISBN-13: 9781040043530
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High Entropy Materials covers the fundamental concepts of these materials and their emerging applications. To fulfil growing energy demand, scientists are looking for novel materials which can be used for the fabrication of high-performance energy devices.



High Entropy Materials covers the fundamental concepts of these materials and their emerging applications. To fulfil growing energy demand, scientists are looking for novel materials which can be used for the fabrication of high-performance energy devices. Many materials such as graphene, carbon nanotubes, and metal oxides are used in energy production and storage. A new class of metal oxides, multicomponent metal oxides, known as high entropy materials, have attracted considerable attention not only for their energy applications but also other emerging applications such as use in sensors, catalysts, and CO2 absorption.

Key Features:

• Reviews state-of-the-art developments;

• Provides new directions to scientists, researchers, and students to better understand the principles, technologies, and applications of high entropy materials;

• Discusses ongoing challenges and visions for the future.

1 Introduction to High Entropy Materials

2 A Brief History of High Entropy Materials

3 Synthesis Strategies for the Preparation of High-Entropy Materials

4 High Entropy Materials: Composition and Structural Aspects

5 Mathematical Modeling for High Entropy Materials

6 Characterizations of High Entropy Materials

7 Stability Landscape and Charge Compensation Mechanism for Isovalent and Aliovalent Substitution in High Entropy Oxides

8 Mechanical and Electrical Properties of High Entropy Materials

9 High Entropy Materials for Methanol Oxidation Reactions

10 High Entropy Materials for Electrocatalytic Hydrogen Generation

11 High Entropy Materials for Oxygen Evolution Reactions

12 High Entropy Materials for Oxygen Reduction Reactions

13 High Entropy Materials for Oxygen Reduction Reaction

14 High Entropy Materials for CO2 Conversion

15 High Entropy Materials as Electrodes for Supercapacitors

16 High Entropy Materials as Anode in Li-Ion Battery

17 High Entropy Materials for Hydrogen Storage

18 High Entropy Materials for Flexible Devices

19 High Entropy Materials for Electrochemical Sensors

20 Thermo - Hydraulic Performance and Entropy Generation Analysis of Nanofluids in Heat Exchanger

21 Tribological Properties of High Entropy Materials

22 High Entropy Materials for Thermoelectric Applications

23 High Entropy Materials for Thermal and Electromagnetic Protection

Index

Dr. Anuj Kumar is an Assistant Professor at GLA University, Mathura, India. His research focus is on molecular as well M-N-C electrocatalysts for H2, O2, and CO2 involving electrocatalysis, nanomaterials, nanocomposites, fuel cells, water electrolyzers, nano-sensors, bio-inorganic chemistry, macrocyclic chemistry. He is serving as Section Editor, Guest editor, and editorial board member for various journals.

Dr. Ram Gupta is a Professor at Pittsburg State University. Before joining Pittsburg State University, he worked as an Assistant Research Professor at Missouri State University, Springfield, MO then as a Senior Research Scientist at North Carolina A&T State University, Greensboro, NC. He is serving as Associate Editor, Guest editor, and editorial board member for various journals.
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