Photocurrent imaging and efficient photon detection in a graphene transistor.

Xia, Fengnian; Mueller, Thomas G.; Avouris, Phaedon; Tsang, James F.; Perebeinos, Vasili; Freitag, Marcus; Lin, Yu-Ming; Golizadeh-Mojarad, Roksana

doi:10.1021/nl8033812

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Is Open Access

Photocurrent imaging and efficient photon detection in a graphene transistor.

Author(s): Fengnian Xia, Thomas Mueller, Phaedon Avouris, James Tsang, Vasili Perebeinos, Marcus Freitag, Yu-Ming Lin, Roksana Golizadeh-Mojarad

Publication date: 2009-03-01

Journal: Nano Letters

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Abstract

We measure the channel potential of a graphene transistor using a scanning photocurrent imaging technique. We show that at a certain gate bias, the impact of the metal on the channel potential profile extends into the channel for more than one-third of the total channel length from both source and drain sides; hence, most of the channel is affected by the metal. The potential barrier between the metal-controlled graphene and bulk graphene channel is also measured at various gate biases. As the gate bias exceeds the Dirac point voltage, VDirac, the original p-type graphene channel turns into a p-n-p channel. When light is focused on the p-n junctions, an impressive external responsivity of 0.001 A/W is achieved, given that only a single layer of atoms are involved in photon detection.