Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation devices at room temperature. For this to be technologically viable, high-conductance (G) and high-Seebeck-coefficient (S) materials are needed. For most semiconductors, the increase in S is accompanied by a decrease in G. Here, using a combined experimental and theoretical investigation, we demonstrate that a simultaneous enhancement of S and G can be achieved in single organic radical molecules, thanks to their intrinsic spin state. A counterintuitive quantum interference (QI) effect is also observed in stable Blatter radical molecules, where constructive QI occurs for a meta-connected radical, leading to further enhancement of thermoelectr...
Focus of the review is on experimental set-ups and theoretical proposals aimed to enhance thermoelec...
The thermoelectric properties of parallel arrays of organic molecules on a surface offer the potenti...
Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale ...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
There is a worldwide race to find materials with high thermoelectric efficiency to convert waste hea...
Recent experimental indications of room-temperature quantum interference in the sub-nanometer single...
Quantum interference (QI) effects in molecular junctions may be used to obtain large thermoelectric ...
Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale ...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
We demonstrate how redox control of intra-molecular quantum interference in phase-coherent molecular...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelect...
We provide a brief overview of recent measurements and predictions of thermoelectric properties of s...
Focus of the review is on experimental set-ups and theoretical proposals aimed to enhance thermoelec...
The thermoelectric properties of parallel arrays of organic molecules on a surface offer the potenti...
Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale ...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
Organic thermoelectric materials have potential for wearable heating, cooling, and energy generation...
There is a worldwide race to find materials with high thermoelectric efficiency to convert waste hea...
Recent experimental indications of room-temperature quantum interference in the sub-nanometer single...
Quantum interference (QI) effects in molecular junctions may be used to obtain large thermoelectric ...
Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale ...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
We demonstrate how redox control of intra-molecular quantum interference in phase-coherent molecular...
Simultaneous engineering of electron and phonon transport through nanoscale molecular junctions is f...
As the miniaturization of electronics continuously progresses, harvesting and generating thermoelect...
We provide a brief overview of recent measurements and predictions of thermoelectric properties of s...
Focus of the review is on experimental set-ups and theoretical proposals aimed to enhance thermoelec...
The thermoelectric properties of parallel arrays of organic molecules on a surface offer the potenti...
Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale ...