Advances in high entropy oxides: synthesis, structure, properties and beyond
The unique structural features of high entropy oxides (HEOs) offer opportunities for flexible
and precise structure control, thereby fostering a broad spectrum of structure–property …
and precise structure control, thereby fostering a broad spectrum of structure–property …
Advances in n-type Bi2O2Se thermoelectric materials: Progress and perspective
Thermoelectric technology has been an alternative for waste heat recovery due to its ability
to realize direct conversion between heat energy and electricity. As a promising n-type …
to realize direct conversion between heat energy and electricity. As a promising n-type …
Exceptional figure of merit achieved in boron-dispersed GeTe-based thermoelectric composites
GeTe is a promising p-type material with increasingly enhanced thermoelectric properties
reported in recent years, demonstrating its superiority for mid-temperature applications. In …
reported in recent years, demonstrating its superiority for mid-temperature applications. In …
Carrier-phonon decoupling in perovskite thermoelectrics via entropy engineering
Thermoelectrics converting heat and electricity directly attract broad attentions. To enhance
the thermoelectric figure of merit, zT, one of the key points is to decouple the carrier-phonon …
the thermoelectric figure of merit, zT, one of the key points is to decouple the carrier-phonon …
Realizing ultrahigh room-temperature seebeck coefficient and thermoelectric properties in SnTe-based alloys through carrier modulation and band convergence
Seebeck coefficient is a crucial parameter in the field of thermoelectricity as it directly
impacts the output power of thermoelectric devices. Intrinsic SnTe thermoelectrics exhibit …
impacts the output power of thermoelectric devices. Intrinsic SnTe thermoelectrics exhibit …
Geometric design of Cu2Se-based thermoelectric materials for enhancing power generation
Waste heat, an abundant energy source generated by both industries and nature, has the
potential to be harnessed into electricity via thermoelectric power generation. The …
potential to be harnessed into electricity via thermoelectric power generation. The …
Interface‐Enhanced High‐Temperature Thermoelectricity in Cu1.99Se/B4C Composites with Synergistically Improved Mechanical Strength
Degenerate semiconductors usually demonstrate a metallic‐like conduction behavior,
showing limited carrier mobility at high temperatures. Herein, by incorporating B4C …
showing limited carrier mobility at high temperatures. Herein, by incorporating B4C …
Enhanced thermoelectric performance of n-type PbTe through introducing PbSe by a fast preparation method
N-type PbTe-based materials exhibit promising thermoelectric performance around 600–
900 K, while the near room-temperature thermoelectric performance still needs to be …
900 K, while the near room-temperature thermoelectric performance still needs to be …
Ultralow thermal conductivity and high ZT of Cu2Se-based thermoelectric materials mediated by TiO2− n nanoclusters
Cu 2 Se is a promising p-type thermoelectric material for energy harvesting due to its
intrinsically low thermal conductivity arising from the liquid-like Cu ions, leaving very limited …
intrinsically low thermal conductivity arising from the liquid-like Cu ions, leaving very limited …
Weavable thermoelectrics: advances, controversies, and future developments
Owing to the capability of the conversion between thermal energy and electrical energy and
their advantages of light weight, compactness, noise-free operation, and precision reliability …
their advantages of light weight, compactness, noise-free operation, and precision reliability …