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Inorganic Thermoelectric Materials: From Fundamental Concepts to Materials Design

Inorganic Thermoelectric Materials: From Fundamental Concepts to Materials Design

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  • More about Inorganic Thermoelectric Materials: From Fundamental Concepts to Materials Design


Thermoelectric devices convert heat into electricity, offering efficiency savings in various applications. They provide effective thermal management in reverse mode, from cooling electronic components to battery conditioning in electric vehicles. Implementation requires materials with improved performance and stability, containing readily-available and inexpensive elements. This book provides an introduction to thermoelectrics and a survey of the state-of-the-art, focusing on the relationship between composition, structure, and physical properties. It is accessible to advanced undergraduates, postgraduates, and experienced researchers.

Format: Hardback
Length: 298 pages
Publication date: 06 December 2021
Publisher: Royal Society of Chemistry


Thermoelectric devices are remarkable devices that have the incredible ability to convert heat flux directly into electrical power. This remarkable capability opens up a wide range of opportunities to achieve significant efficiency savings in various applications. By converting otherwise waste heat into valuable electrical energy, thermoelectric devices can help optimize energy utilization and reduce environmental impact.

One of the most exciting applications of thermoelectric devices is in thermal management. In reverse mode, thermoelectric devices can be used to effectively manage heat in a variety of areas. For instance, they can be used to cool electronic components, which helps improve their performance and lifespan. They can also be used to condition batteries in electric vehicles, which helps extend their range and improve their overall performance.

Implementing thermoelectric technology requires materials with improved performance and stability. These materials should contain readily available and inexpensive elements, making them accessible to a wide range of applications. Researchers and scientists are constantly working to develop new materials that can enhance the efficiency and stability of thermoelectric devices.

In recent years, there has been a significant emergence of new families of advanced materials that have taken the field of thermoelectrics beyond traditional thermoelectric materials such as Bi 2 Te 3 , PbTe, and SiGe. These advanced materials have unique properties that make them ideal for specific applications. For example, some materials have high electrical conductivity, while others have excellent thermal conductivity.

Understanding the complex relationship between composition, structure, and physical properties is critical to understanding the performance of these advanced materials. This book aims to provide both an introduction to the field of thermoelectrics and a comprehensive survey of the state-of-the-art. Chapters in this book review the important new families of advanced materials that have emerged and pushed the boundaries of thermoelectric technology. The emphasis is placed on the relationship between chemical composition, structure, and physical properties, which play a crucial role in determining the performance of thermoelectric devices.

Edited by a leader in the field, Inorganic Thermoelectric Materials serves as an invaluable resource for advanced undergraduates, postgraduates, and experienced researchers alike. The book is written in a clear and concise manner, making it accessible to a wide audience. With contributions from global experts in the field, Inorganic Thermoelectric Materials provides a comprehensive overview of thermoelectric materials and their applications.

In conclusion, thermoelectric devices are a breakthrough technology that has the potential to revolutionize the way we generate and use energy. By converting waste heat into valuable electrical energy, thermoelectric devices can help optimize energy utilization and reduce environmental impact. With the emergence of new advanced materials and the understanding of the complex relationship between composition, structure, and physical properties, thermoelectric technology is poised to continue to evolve and make a significant impact on various industries.

Weight: 610g
Dimension: 234 x 156 (mm)
ISBN-13: 9781788017596

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