Optimised Power Harvesting by Controlling the Pressure Applied to Molecular Junctions

Wang, Xintai and Ismael, Ali and Almutlg, Ahmad and Alshammari, Majed and Al-Jobory, Alaa and Alshehab, Abdullah and Bennett, Troy and Wilkinson, Luke and Cohen, Lesley F. and Long, Nicholas J. and Robinson, Benjamin and Lambert, Colin (2021) Optimised Power Harvesting by Controlling the Pressure Applied to Molecular Junctions. Chemical Science (14). ISSN 2041-6520

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A major potential advantage of creating thermoelectric devices using self-assembled molecular layers is their mechanical flexibility. Previous reports have discussed the advantage of this flexibility from the perspective of facile skin attachment and the ability to avoid mechanical deformation. In this work, we demonstrate that the thermoelectric properties of such molecular devices can be controlled by taking advantage of their mechanical flexibility. The thermoelectric properties of self-assembled monolayers (SAMs) fabricated from thiol terminated molecules were measured with a modified AFM system, and the conformation of the SAMs was controlled by regulating the loading force between the organic thin film and the probe, which changes the tilt angle at the metal-molecule interface. We tracked the thermopower shift vs. the tilt angle of the SAM and showed that changes in both the electrical conductivity and Seebeck coefficient combine to optimize the power factor at a specific angle. This optimization of thermoelectric performance via applied pressure is confirmed through the use of theoretical calculations and is expected to be a general method for optimising the power factor of SAMs.

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Journal Article
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Chemical Science
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Deposited On:
16 Mar 2021 12:24
Last Modified:
16 Sep 2023 02:17