Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the thermoelectric effect in single-molecule junctions, full electrostatic control of these levels has not been achieved to date. Here, we show that graphene nanogaps combined with gold microheaters serve as a testbed for studying single-molecule thermoelectricity. Reduced screening of the gate electric field compared to conventional metal electrodes allows control of the position of the dominant transport orbital by hundreds of meV. We find that the power factor of graphene-fullerene junctions can be tuned over several orders of magnitude to a value close to the theoretical limit of an isolated Breit-Wigner resonance. Furthermore, our data sugge...
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelect...
The quantum confinement of charge carriers has been a promising approach to enhance the efficiency o...
Through a comprehensive theoretical study, we demonstrate that single-molecule junctions formed from...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Although it was demonstrated that discrete molecular levels determine the sign and mag nitude of the...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Molecular junctions are a versatile test bed for investigating nanoscale thermoelectricity and contr...
Molecular junctions are a versatile test bed for investigating nanoscale thermoelectricity1, 2, 3, 4...
A molecular junction consists of a single molecule or self-assembled monolayer (SAM) placed between ...
Enhancing thermopower is a key goal in organic and molecular thermoelectrics. Herein, it is shown th...
Recent studies of single-molecule thermoelectricity have identified families of high-performance mol...
Recent studies of single-molecule thermoelectricity have identified families of high-performance mol...
The quantum confinement of charge carriers has been a promising approach to enhance the efficiency o...
Heat from electrical devices, car engines, industrial processes and even our own body heat are an ab...
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelect...
The quantum confinement of charge carriers has been a promising approach to enhance the efficiency o...
Through a comprehensive theoretical study, we demonstrate that single-molecule junctions formed from...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Although it was demonstrated that discrete molecular levels determine the sign and mag nitude of the...
Although it was demonstrated that discrete molecular levels determine the sign and magnitude of the ...
Molecular junctions are a versatile test bed for investigating nanoscale thermoelectricity and contr...
Molecular junctions are a versatile test bed for investigating nanoscale thermoelectricity1, 2, 3, 4...
A molecular junction consists of a single molecule or self-assembled monolayer (SAM) placed between ...
Enhancing thermopower is a key goal in organic and molecular thermoelectrics. Herein, it is shown th...
Recent studies of single-molecule thermoelectricity have identified families of high-performance mol...
Recent studies of single-molecule thermoelectricity have identified families of high-performance mol...
The quantum confinement of charge carriers has been a promising approach to enhance the efficiency o...
Heat from electrical devices, car engines, industrial processes and even our own body heat are an ab...
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelect...
The quantum confinement of charge carriers has been a promising approach to enhance the efficiency o...
Through a comprehensive theoretical study, we demonstrate that single-molecule junctions formed from...