Title :
Graphene-Si Schottky IR Detector
Author :
Amirmazlaghani, Maryam ; Raissi, Farshid ; Habibpour, Omid ; Vukusic, Josip ; Stake, Jan
Author_Institution :
Dept. of Electr. Eng., K.N. Toosi Univ. of Technol., Tehran, Iran
Abstract :
This paper reports on photodetection properties of the graphene-Si schottky junction by measuring current-voltage characteristics under 1.55-μm excitation laser. The measurements have been done on a junction fabricated by depositing mechanically exfoliated natural graphite on top of the pre-patterned silicon substrate. The electrical Schottky barrier height is estimated to be (0.44-0.47) eV with a minimum responsivity of 2.8 mA/W corresponding to an internal quantum efficiency of 10%, which is almost an order of magnitude larger than regular Schottky junctions. A possible explanation for the large quantum efficiency related to the 2-D nature of graphene is discussed. Large quantum efficiency, room temperature IR detection, ease of fabrication along with compatibility with Si devices can open a doorway for novel graphene-based photodetectors.
Keywords :
Schottky barriers; graphene; infrared detectors; photodetectors; silicon; C-Si; Schottky IR detector; current-voltage characteristics; electrical Schottky barrier height; electron volt energy 0.44 eV to 0.47 eV; excitation laser; graphene-Si Schottky junction; graphene-based photodetectors; internal quantum efficiency; mechanically exfoliated natural graphite; photodetection properties; pre-patterned silicon substrate; room temperature IR detection; wavelength 1.55 mum; Detectors; Graphene; Junctions; Photonics; Schottky diodes; Semiconductor lasers; Silicon; Detector; Graphene; Schottky diode; Si;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2013.2261472
