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Enhanced Seebeck effect in graphene devices by strain and doping engineering

In this work, we investigate the possibility of enhancing the thermoelectric power (Seebeck coefficient) in graphene devices by strain and doping engineering. While a local strain can result in the misalignment of Dirac cones of different graphene sections in the k-space, doping engineering leads to their displacement in energy. By combining these two effects, we demonstrate that a conduction gap as large as a few hundreds meV can be achieved and hence the enhanced Seebeck coefficient can reach a value higher than 1.4 mV/K in graphene doped heterojunctions with a locally strained area. Such hetero-channels appear to be very promising for enlarging the applications of graphene devices as in strain and thermal sensors.

preprint2015arXivOpen access
Mai Chung NguyenViet Hung NguyenHuy-Viet NguyenJerome Saint-MartinPhilippe Dollfus
cond-mat.mes-hallcond-mat.mtrl-sci
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Mai Chung NguyenViet Hung NguyenHuy-Viet NguyenJerome Saint-MartinPhilippe Dollfus

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