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Paper detail

Epitaxial graphene homogeneity and quantum Hall effect in millimeter-scale devices

Quantized magnetotransport is observed in 5.6 x 5.6 mm^2 epitaxial graphene devices, grown using highly constrained sublimation on the Si-face of SiC(0001) at high temperature (1900 °C). The precise quantized Hall resistance of Rxy = h/2e^2 is maintained up to record level of critical current Ixx = 0.72 mA at T = 3.1 K and 9 T in a device where Raman microscopy reveals low and homogeneous strain. Adsorption-induced molecular doping in a second device reduced the carrier concentration close to the Dirac point(n ~ 1E10 (1/cm^2)), where mobility of 43700 cm^2/Vs is measured over an area of 10 mm^2. Atomic force, confocal optical, and Raman microscopies are used to characterize the large-scale devices, and reveal improved SiC terrace topography and the structure of the graphene layer. Our results show that the structural uniformity of epitaxial graphene produced by face-to-graphite processing contributes to millimeter-scale transport homogeneity, and will prove useful for scientific and commercial applications.

preprint2016arXivOpen access
Yanfei YangGuangjun ChengPatrick MendeIrene G. CalizoRandall M. FeenstraChiashain ChuangChieh-Wen LiuChieh-I LiuGeorge R. JonesAngela R. Hight WalkerRandolph E. Elmquist
cond-mat.mes-hallcond-mat.mtrl-sci
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Yanfei YangGuangjun ChengPatrick MendeIrene G. CalizoRandall M. FeenstraChiashain ChuangChieh-Wen LiuChieh-I LiuGeorge R. JonesAngela R. Hight WalkerRandolph E. Elmquist

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