Topic: Thermoelectric Materials: Current Status and Future Challenges
Guest Editors
Special Issue Introduction
Thermoelectric materials have garnered significant attention due to their ability to directly convert heat into electricity, offering promising solutions for energy harvesting, waste heat recovery, and cooling applications. The development of advanced thermoelectric materials with high efficiency, stability, and scalability is crucial for enhancing the performance of thermoelectric devices. This Special Issue aims to provide a comprehensive overview of the latest progress in thermoelectric materials, including the synthesis, characterization, theoretical modeling, and device integration. We welcome contributions that explore novel materials, innovative fabrication techniques, and breakthrough applications that push the boundaries of thermoelectric technology.
Keywords
Thermoelectric materials, energy harvesting, waste heat recovery, thermoelectric efficiency, material synthesis, thermal conductivity, Seebeck coefficient, device integration, nanoscale materials, power generation
Submission Deadline
27 Feb 2025
Submission Information
For Author Instructions, please refer to https://www.oaepublish.com/energymater/author_instructions
For Online Submission, please login at https://www.oaecenter.com/login?JournalId=energymater&IssueId=energymater2502282192
Submission Deadline: 28 Feb 2025
Contacts: Dasia Luo, Assistant Eidtor, [email protected]
