Add to ORKGHerein, we report the use of nanostructured crystalline Si as a thermoelectric material and its integration into thermoelectric harvesters. The proof-of-concept relies on the partial suppression of lattice thermal transport by introducing pores with dimensions scaling between the electron mean free path and the phonon mean free path. In other words, we artificially aimed at the electron crystal phonon glass tradeoff targeted for thermoelectric efficiency. The devices were fabricated using CMOS compatible processes and exhibited power generation from a few microWatts per cm^2 to a few milliWatts per cm^2 under temperature differences from a few K to 200 K across the thermopiles. These numbers demonstrate the capability to power autonomous de...
Nanoengineering has revolutionized the development of new thermoelectric materials in recent decades...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
International audienceThermoelectricity struggles with the lack of cheap, abundant, and environmenta...
International audienceHerein, we report the use of nanostructured crystalline silicon as a thermoele...
The design and fabrication of nanostructured materials to control both thermal and electrical proper...
Thermoelectric power sources have consistently demonstrated their extraordinary reliability and long...
The reduction of phonon propagation at the nanoscale offers the opportunity to exploit, for thermoel...
Thermoelectric generators, which convert heat directly into electrical power, have great potentialit...
We report the development of a Si-based micro thermogenerator build from silicon-on-insulator by usi...
The lack of reliable, safe and low-cost energy source seems to delay the blooming of the internet of...
Silicon is currently the major semiconductor material for ICT and will probably sustain the Moore's ...
Research on silicon thermoelectric coolers lies at the intersection of semiconductor physics, nanosc...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
The potentialities of silicon as a starting material for electronic devices are well known and large...
Thermoelectric devices convert temperature gradients into electrical power and vice versa, thus enab...
Nanoengineering has revolutionized the development of new thermoelectric materials in recent decades...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
International audienceThermoelectricity struggles with the lack of cheap, abundant, and environmenta...
International audienceHerein, we report the use of nanostructured crystalline silicon as a thermoele...
The design and fabrication of nanostructured materials to control both thermal and electrical proper...
Thermoelectric power sources have consistently demonstrated their extraordinary reliability and long...
The reduction of phonon propagation at the nanoscale offers the opportunity to exploit, for thermoel...
Thermoelectric generators, which convert heat directly into electrical power, have great potentialit...
We report the development of a Si-based micro thermogenerator build from silicon-on-insulator by usi...
The lack of reliable, safe and low-cost energy source seems to delay the blooming of the internet of...
Silicon is currently the major semiconductor material for ICT and will probably sustain the Moore's ...
Research on silicon thermoelectric coolers lies at the intersection of semiconductor physics, nanosc...
The figure of merit of thermoelectric material is determined by electrical and thermal conductivitie...
The potentialities of silicon as a starting material for electronic devices are well known and large...
Thermoelectric devices convert temperature gradients into electrical power and vice versa, thus enab...
Nanoengineering has revolutionized the development of new thermoelectric materials in recent decades...
Thermoelectric materials could play an increasing role for the efficient use of energy resources and...
International audienceThermoelectricity struggles with the lack of cheap, abundant, and environmenta...