We report the fabrication of a photosensor based on as-grown single
crystal monolayers of MoS2 synthesized by chemical vapor deposition
(CVD).
The measurements were performed using Au/Ti leads in a two terminal
configuration on CVD-grown MoS2 on a SiO2/Si substrate. The device was
operated in air at room temperature at low bias voltages ranging from −2
V to 2 V and its sensing capabilities were tested for two different
excitation wavelengths (514.5 nm and 488 nm). The responsivity reached
1.1 mA W−1 when excited with a 514.5 nm laser at a bias of 1.5 V.
This responsivity is one order of magnitude larger than that reported
from photo devices fabricated using CVD-grown multilayered WS2. A
rectifying-effect was observed for the optically excited current, which
was four times larger in the direct polarization bias when compared to
the reverse bias photocurrent. Such rectifying behavior can be
attributed to the asymmetric electrode placement on the triangular MoS2
monocrystal.
It is envisioned that these components could eventually be used as
efficient and low cost photosensors based on CVD-grown transition metal
dichalcogenide monolayers.
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