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High-performance thermoelectricity in edge-over-edge zinc-porphyrin molecular wires

Noori, Mohammed and Sadeghi, Hatef and Lambert, Colin J. (2017) High-performance thermoelectricity in edge-over-edge zinc-porphyrin molecular wires. Nanoscale, 9 (17). pp. 5299-5304. ISSN 2040-3364

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    If high efficiency organic thermoelectric materials could be identified, then these would open the way to a range of energy harvesting technologies and Peltier coolers using flexible and transparent thin-film materials. We have compared the thermoelectric properties of three zinc porphyrin (ZnP) dimers and a ZnP monomer and found that the "edge-over-edge" dimer formed from stacked ZnP rings possesses a high electrical conductance, negligible phonon thermal conductance and a high Seebeck coefficient of the order of 300 μV K(-1). These combine to yield a predicted room-temperature figure of merit of ZT ≈ 4, which is the highest room-temperature ZT ever reported for a single organic molecule. This high value of ZT is a consequence of the low phonon thermal conductance arising from the stacked nature of the porphyrin rings, which hinders phonon transport through the edge-over-edge molecule and enhances the Seebeck coefficient.

    Item Type: Journal Article
    Journal or Publication Title: Nanoscale
    Additional Information: © Royal Society of Chemistry 2017
    Departments: Faculty of Science and Technology > Physics
    ID Code: 86046
    Deposited By: ep_importer_pure
    Deposited On: 26 Apr 2017 15:20
    Refereed?: Yes
    Published?: Published
    Last Modified: 17 Jan 2019 00:43
    Identification Number:

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