Improving Energy Conversion Devices' Thermoelectric Efficiency by the Use of Nanostructured Materials
- Title
- Improving Energy Conversion Devices' Thermoelectric Efficiency by the Use of Nanostructured Materials
- Abstract
-
Background: Thermoelectric materials have received much interest because of their
capacity to transform thermal energy into electrical power, providing a sustainable method for
energy collecting. Despite substantial study, the actual use and effectiveness of these materials
require more investigation as they move from laboratory to industrial settings. Objective: This study's
objective is to provide a thorough analysis of the evolution of thermoelectric materials, from their
fundamental theoretical underpinnings to their integration into devices, highlighting material
science advances that improve their efficiency and applicability. Methods: We did a thorough review
of current research that focused on new materials, improved synthesis procedures, and innovative
design strategies to improve the thermoelectric figure of merit. Furthermore, we investigated the
procedures of integrating these materials into devices, taking into account both performance
measurements and scalability. Results: The findings show substantial advances in the fabrication
of nanostructured thermoelectric materials, which significantly boost the Seebeck coefficient
while preserving electrical conductivity. We also found essential solutions for optimising device
architecture that simultaneously boost heat management and efficiency. Conclusion: Breakthroughs
in material science and engineering are driving the fast integration of improved thermoelectric
materials into practical systems. Future research should concentrate on the scalability of these
technologies and their integration into a larger range of renewable energy systems, therefore
improving their economic feasibility and environmental effect. - Scientific Type
- غير معروف
- Journal volume
- Volume 16, Issue 6
- Collaboration type
- مشترك
- Publish Date
- September 17, 2024
- Participated Universities (Publication)
-
Alnoor University
- Scopus status
- In Scopus
- Scopus index year
- 2 024
- Scopus quarter
- 4
- Scopus citation score
- 0.5
- Clarivate status
- Not In Clarivate
- Pub. Med. status
- Not In PubMed
- Author (Publication)
- علي إبراهيم احمد صالح
- Journal (Publication)
-
Radioelektronika, Nanosistemy, Informacionnye Tehnologii
- Publisher (Publication)
- Russian Academy of Natural Science
- ISSN
- 2218-3000
- Country (Publication)
-
Russian
- Country type
- عالمية
- College (Publication)
-
College of Health and Medical Technologies
- Departement (Publication)
-
Department of Medical laboratories techniques
- Media
-
Academic paper
