Recent advances in designing thermoelectric materials
The rising demand for energy has accelerated the search for clean and renewable sources
and newer approaches towards efficient energy management. One of the most promising …
and newer approaches towards efficient energy management. One of the most promising …
The electrical behaviors of grain boundaries in polycrystalline optoelectronic materials
Polycrystalline optoelectronic materials are widely used for photoelectric signal conversion
and energy harvesting and play an irreplaceable role in the semiconductor field. As an …
and energy harvesting and play an irreplaceable role in the semiconductor field. As an …
High-entropy (Ca0. 2Sr0. 2Ba0. 2La0. 2Pb0. 2) TiO3 perovskite ceramics with A-site short-range disorder for thermoelectric applications
Novel high-entropy perovskite-type (Ca 0.2 Sr 0.2 Ba 0.2 La 0.2 Pb 0.2) TiO 3 (CSBLP)
ceramics with cubic structure of Pm-3m space group were successful prepared by solid-state …
ceramics with cubic structure of Pm-3m space group were successful prepared by solid-state …
General strategies to improve thermoelectric performance with an emphasis on tin and germanium chalcogenides as thermoelectric materials
Thermoelectric (TE) materials have attracted tremendous research interests over the past
few decades, due to their application in power generation technology from waste heat …
few decades, due to their application in power generation technology from waste heat …
Constructing Coated Grain Nanocomposites and Intracrystalline Precipitates to Simultaneously Improve the Thermoelectric and Mechanical Properties of SnTe by …
Thermoelectric materials should be highly efficient and mechanically robust to satisfy the
requirements of engineering applications. Herein, an integrated optimization strategy to …
requirements of engineering applications. Herein, an integrated optimization strategy to …
Defect engineering advances thermoelectric materials
Defect engineering is an effective method for tuning the performance of thermoelectric
materials and shows significant promise in advancing thermoelectric performance. Given the …
materials and shows significant promise in advancing thermoelectric performance. Given the …
Advancements in thermoelectric materials: optimization strategies for enhancing energy conversion
Thermoelectric materials are a highly promising category of energy conversion materials. In
this paper, we present a multitude of approaches to enhance the efficacy of these materials …
this paper, we present a multitude of approaches to enhance the efficacy of these materials …
Lead-free SnTe-based compounds as advanced thermoelectrics
Thermoelectric materials are able to realize the direct energy conversion between heat and
electricity and have great potential in power generation and Peltier cooling. SnTe, an old but …
electricity and have great potential in power generation and Peltier cooling. SnTe, an old but …
Vacancy Suppression and Resonant Level Rendering Extraordinary Power Factor in Sn0.99In0.01Te/Tourmaline Composite
SnTe, as a potential medium‐temperature thermoelectric material, reaches a maximum
power factor (PF) usually above 750 K, which is not conducive to continuous high‐power …
power factor (PF) usually above 750 K, which is not conducive to continuous high‐power …
Realizing high thermoelectric performance in GeTe through optimizing Ge vacancies and manipulating Ge precipitates
Recent vast reinvestigations on GeTe, a promising thermoelectric material at medium
temperature, have triggered enormous enthusiasm in the thermoelectric community again …
temperature, have triggered enormous enthusiasm in the thermoelectric community again …