Due to weak light-matter interaction, standard chemical vapor deposition (CVD)/exfoliated single-layer graphene-based photodetectors show low photoresponsivity (on the order of mA/W). However, epitaxial graphene (EG) offers a more viable approach for obtaining devices with good photoresponsivity. EG on 4H-SiC also hosts an interfacial buffer layer (IBL), which is the source of electron carriers applicable to quantum optoelectronic devices. We utilize these properties to demonstrate a gate-free, planar EG/4H-SiC-based device that enables us to observe the positive photoresponse for (405-532) nm and negative photoresponse for (632-980) nm laser excitation. The broadband binary photoresponse mainly originates from the energy band alignment of the IBL/EG interface and the highly sensitive work function of the EG. We find that the photoresponsivity of the device is > 10 A/W under 405 nm of power density 7.96 mW/cm2 at 1 V applied bias, which is three orders of magnitude greater than the obtained values of CVD/exfoliated graphene and higher than the required value for practical applications. These results path the way for selective light-triggered logic devices based on EG and can open a new window for broadband photodetection.

Department of Chemistry and Biochemistry University of Maryland College Park MD 20742 USA

Department of Materials Science and Engineering National Taiwan University of Science and Technology Taipei 106335 Taiwan

Department of Physics National Taiwan University Taipei 106319 Taiwan

J Heyrovsky Institute of Physical Chemistry Czech Academy of Sciences Prague 8 Czech Republic

Physical Measurement Laboratory National Institute of Standards and Technology Gaithersburg MD 20899 USA

Physikalisch Technische Bundesanstalt Bundesallee 100 D 38116 Braunschweig Germany

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