Add to ORKGThe liquid-like thermoelectric material Cu 2 Se has shown great promise in recent years by virtue of its good electrical properties and inherent low thermal conductivity, which could be optimized by engineering liquid copper ions for further application. Herein, we reported, for the first time, that thermoelectric performance could be remarkably improved via introducing SiC nanoparticles into the Cu 2 Se system. Experimental results proved that additional SiC generated more deformation and stress, which feasibly facilitated more migration of charged copper ions and in turn increased conductivity. A maximum enhancement in electrical conductivity of about 7 times in the composite with 0.05 wt% SiC content was obtained compared with the pure C...
In addition to eco friendliness and low raw material cost, Cu2S0.5Se0.5 exhibits promising middle to...
As one of promising thermoelectric materials with intrinsic high figure of merit (ZT), Cu2Se provide...
Thermoelectric materials require an optimal carrier concentration to maximize electrical transport a...
Liquid-like ionic conductors in the copper selenide family represent a promising class of thermoelec...
The study of thermoelectric transport properties in Cu 2-x Se and Cu 2 S has gained an importance in...
The study of thermoelectric transport properties in Cu2-xSe and Cu2S has gained an importance in the...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
© The Royal Society of Chemistry. The reduction of thermal conductivity and enhancement of electrica...
Recently, copper chalcogenides have attracted great attention due to their potential application for...
Liquid-like binary Cu2‑δX (X = S, Se, and Te) chalcogenides and their ternary solid solutions have g...
As an earth-abundant, inexpensive and non-toxic compound, Copper Selenide (Cu2Se) is a frequently in...
We report the thermoelectric properties of nanostructured Cu-deficient Cu2Se, which was synthesized ...
In the last decade, high-performance Cu2Se thermoelectric materials and devices are attracting incre...
Liquid-like thermoelectric materials have recently received heightened attentions due to their excep...
Abstract As a group of emerging liquid‐like thermoelectric materials for waste heat recovery into us...
In addition to eco friendliness and low raw material cost, Cu2S0.5Se0.5 exhibits promising middle to...
As one of promising thermoelectric materials with intrinsic high figure of merit (ZT), Cu2Se provide...
Thermoelectric materials require an optimal carrier concentration to maximize electrical transport a...
Liquid-like ionic conductors in the copper selenide family represent a promising class of thermoelec...
The study of thermoelectric transport properties in Cu 2-x Se and Cu 2 S has gained an importance in...
The study of thermoelectric transport properties in Cu2-xSe and Cu2S has gained an importance in the...
Advanced thermoelectric technology offers a potential for converting waste industrial heat into usef...
© The Royal Society of Chemistry. The reduction of thermal conductivity and enhancement of electrica...
Recently, copper chalcogenides have attracted great attention due to their potential application for...
Liquid-like binary Cu2‑δX (X = S, Se, and Te) chalcogenides and their ternary solid solutions have g...
As an earth-abundant, inexpensive and non-toxic compound, Copper Selenide (Cu2Se) is a frequently in...
We report the thermoelectric properties of nanostructured Cu-deficient Cu2Se, which was synthesized ...
In the last decade, high-performance Cu2Se thermoelectric materials and devices are attracting incre...
Liquid-like thermoelectric materials have recently received heightened attentions due to their excep...
Abstract As a group of emerging liquid‐like thermoelectric materials for waste heat recovery into us...
In addition to eco friendliness and low raw material cost, Cu2S0.5Se0.5 exhibits promising middle to...
As one of promising thermoelectric materials with intrinsic high figure of merit (ZT), Cu2Se provide...
Thermoelectric materials require an optimal carrier concentration to maximize electrical transport a...