Add to ORKGIdentifying materials with intrinsically high thermoelectric performance remains a challenge even with the aid of a high-throughput search. Here, using a chemically intuitive approach based on the bond-orbital theory, three anisotropic 2D group-V materials (monolayer black phosphorus, alpha-arsenene, and aW-antimonene) are identified as candidates for high thermoelectric energy conversion efficiency. Concepts, such as bond length, bond angle, and bond strength, are used to explain the trends in their electronic properties, such as the band gap and the effective mass. Our first principles calculations confirm that high carrier mobilities and large Seebeck coefficients can be obtained at the same time in these materials, due to complex Fermi ...
Thermoelectric materials allow for the interconversion of heat and electricity. Rapid progress has b...
While the phenomenon of thermoelectricity is well understood from the physical point of view, the ch...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...
Identifying materials with intrinsically high thermoelectric performance remains a challenge even wi...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Electronic, phononic, and thermoelectric transport properties of single layer black- and blue-phosph...
The monolayer of black phosphorus, or “phosphorene,” has recently emerged as a two-dimensional semic...
Thermoelectric materials provide a challenge for materials design, since they require optimization o...
Thermoelectric devices that utilize the Seebeck effect convert heat flow into electrical energy and ...
The coupled transport properties required to create an efficient thermoelectric material necessitate...
Monolayer arsenic is a newly emerging two-dimensional material in the VA group similar to its isolog...
Thermoelectric power generators could aid reducing the carbon footprint of mankind by converting was...
The search for new thermoelectric materials has gained rapid progress in recent years as thermoelect...
The present work was set to study materials, and in particular thermoelectric materials based on fir...
Thermoelectric materials allow for the interconversion of heat and electricity. Rapid progress has b...
While the phenomenon of thermoelectricity is well understood from the physical point of view, the ch...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...
Identifying materials with intrinsically high thermoelectric performance remains a challenge even wi...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Electronic, phononic, and thermoelectric transport properties of single layer black- and blue-phosph...
The monolayer of black phosphorus, or “phosphorene,” has recently emerged as a two-dimensional semic...
Thermoelectric materials provide a challenge for materials design, since they require optimization o...
Thermoelectric devices that utilize the Seebeck effect convert heat flow into electrical energy and ...
The coupled transport properties required to create an efficient thermoelectric material necessitate...
Monolayer arsenic is a newly emerging two-dimensional material in the VA group similar to its isolog...
Thermoelectric power generators could aid reducing the carbon footprint of mankind by converting was...
The search for new thermoelectric materials has gained rapid progress in recent years as thermoelect...
The present work was set to study materials, and in particular thermoelectric materials based on fir...
Thermoelectric materials allow for the interconversion of heat and electricity. Rapid progress has b...
While the phenomenon of thermoelectricity is well understood from the physical point of view, the ch...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...