Add to ORKGThermoelectric devices convert temperature gradients into electrical power and vice versa, thus enabling energy scavenging from waste heat, sensing, and cooling. Yet, many of these attractive applications are hindered by the limited efficiency of thermoelectric materials, especially in the low-temperature regime. This review provides a summary of the recent advances in the design of new efficient silicon-based thermoelectric materials through nanostructuring, alloying, and chemical optimization, emphasizing the contribution from theory and atomistic modeling
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
Thermoelectric power sources have consistently demonstrated their extraordinary reliability and long...
Development of new thermoelectric materials has been rapid in past few years. The goal of the work a...
Silicon is the most widely used functional material, as it is geo-abundant and atoxic. Unfortunately...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
A big research effort is currently dedicated to the development of thermoelectric devices capable of...
Thermoelectric generator, which converts heat into electrical energy, has great potential to power p...
Thermoelectric (TE) phenomenon can be used to convert thermal energy into electricity directly. Sinc...
The potentialities of silicon as a starting material for electronic devices are well known and large...
The potentialities of silicon as a starting material for electronic devices are well known and large...
This article is part of the Thematic Series "Atomic scale interface design and characterisation...
International audienceLack of materials which are thermoelectrically efficient and economically attr...
Silicon based low-dimensional materials receive significant attention as new generation th...
Thermo-electricity offers an elegant solution to the problem of heat-to-electricity conversion. As a...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
Thermoelectric power sources have consistently demonstrated their extraordinary reliability and long...
Development of new thermoelectric materials has been rapid in past few years. The goal of the work a...
Silicon is the most widely used functional material, as it is geo-abundant and atoxic. Unfortunately...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
A big research effort is currently dedicated to the development of thermoelectric devices capable of...
Thermoelectric generator, which converts heat into electrical energy, has great potential to power p...
Thermoelectric (TE) phenomenon can be used to convert thermal energy into electricity directly. Sinc...
The potentialities of silicon as a starting material for electronic devices are well known and large...
The potentialities of silicon as a starting material for electronic devices are well known and large...
This article is part of the Thematic Series "Atomic scale interface design and characterisation...
International audienceLack of materials which are thermoelectrically efficient and economically attr...
Silicon based low-dimensional materials receive significant attention as new generation th...
Thermo-electricity offers an elegant solution to the problem of heat-to-electricity conversion. As a...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
Thermoelectric power sources have consistently demonstrated their extraordinary reliability and long...