Acetate based CaMnO3 thermoelectric material synthesis: effects on efficiency, phase formation, and microstructural change

“…The present investigation effectively achieved the synthesis of single-phase CaMnO3 by employing acetate starting materials. The resulting material was subjected to structural and thermoelectric property investigations, which provided valuable insights into its potential as a thermoelectric material for enhancing energy usage efficiency . In this study, a SnTe precursor that does not contain thiols is employed to produce nanoscale SnTe crystals and engineer SnTe-Cu2SnTe3 nanocomposites.…”

“…The resulting material was subjected to structural and thermoelectric property investigations, which provided valuable insights into its potential as a thermoelectric material for enhancing energy usage efficiency. 97 In this study, a SnTe precursor that does not contain thiols is employed to produce nanoscale SnTe crystals and engineer SnTe-Cu2SnTe3 nanocomposites. This approach leads to enhanced electrical conductivity and reduced lattice thermal conductivity, resulting in significantly improved thermoelectric performance.…”

Advances in Nanoparticle-Enhanced Thermoelectric Materials from Synthesis to Energy Harvesting: A Review

“…The present investigation effectively achieved the synthesis of single-phase CaMnO3 by employing acetate starting materials. The resulting material was subjected to structural and thermoelectric property investigations, which provided valuable insights into its potential as a thermoelectric material for enhancing energy usage efficiency . In this study, a SnTe precursor that does not contain thiols is employed to produce nanoscale SnTe crystals and engineer SnTe-Cu2SnTe3 nanocomposites.…”

“…The resulting material was subjected to structural and thermoelectric property investigations, which provided valuable insights into its potential as a thermoelectric material for enhancing energy usage efficiency. 97 In this study, a SnTe precursor that does not contain thiols is employed to produce nanoscale SnTe crystals and engineer SnTe-Cu2SnTe3 nanocomposites. This approach leads to enhanced electrical conductivity and reduced lattice thermal conductivity, resulting in significantly improved thermoelectric performance.…”

Advances in Nanoparticle-Enhanced Thermoelectric Materials from Synthesis to Energy Harvesting: A Review

Development of thermoelectric Ca3Co4O9 crystals for thermo-photovoltaic hybrid energy conversion