High thermopower of monolayers and bilayers of C 60 derivatives

Alzanbaqi, Mohammed and Alanazi, Bashayr and Alajmi, Asma and Lambert, Colin and Ismael, Ali (2025) High thermopower of monolayers and bilayers of C 60 derivatives. Physical Chemistry Chemical Physics. ISSN 1463-9076

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Abstract

We use density functional theory to study the thermoelectric properties of a gold-molecule-graphene molecular junction formed a fullerene monomer (denoted PTEG-1), comprising a fullerene derivative with a polar triethylene glycol (TEG) pendent group and found that the Seebeck coefficient is +261 μV K−1. This high positive value for the Seebeck coefficient is marked contrast with the high negative Seebeck coefficient of a gold-dimer-graphene molecular junction containing two anti-aligned PTEG-1 molecules which we found to be −356 μV K−1. We also computed the Seebeck coefficient of molecule comprising C60 derivative attached to two ethylene glycol chains (denoted PTEG-2) in the presence of n-DMBI+ doping, which we found to vary between −109 μV K−1 and −205 μV K−1, depending on the level of doping. These high values of the Seebeck coefficients with both positive and negative signs suggest that such molecules are ideal candidates for producing scalable gold-molecule-graphene thermoelectric generators.