Exceptional high Seebeck Coefficient and Gas-Flow-Induced Voltage in Multilayer Graphene

Details Exceptional high Seebeck Coefficient and Gas-Flow-Induced Voltage in Multilayer Graphene Exceptional high Seebeck Coefficient and Gas-Flow-Induced Voltage in Multilayer Graphene

2012-03-02

arxiv.org/abs/1203.0372v1

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

5 figures,20pages,conference

Scientific paper

Monolayer graphene shows Seebeck coefficient several times and gas-flow-induced voltage twenty times higher than that of bulk graphite. Here we find that the Seebeck coefficient of multilayer graphene increases monotonically with increasing layer and reaches its peak value at hexa-layer ~77% higher than for monolayer and then decreases, although the electric resistance decreases monotonically with increasing layer. The flow-induced voltage is significantly higher in 2, 4, 5, 6, 7 layered graphene than in 1, 3, 8 layered one, against the prevailing view that it should be proportional to Seebeck coefficient. These thickness effects are also in sharp contrast to that in continuous aluminum nanofilms.

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