Facile fabrication of a ultraviolet tunable MoS2/ p -Si junction diode

Chemical vapor deposition grown MoS2 single crystals were transferred onto the edge of a p-Si/SiO2 wafer, forming an abrupt heterogeneous junction diode at the MoS2/p-Si interface. When electrically characterized as a field effect transistor, MoS2 exhibits an n-type response and can be doped in the...

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Bibliographic Details
Published in:Applied physics letters 2015-05, Vol.106 (19)
Main Authors: Serrano, William, Pinto, Nicholas J., Naylor, Carl H., Kybert, Nicholas J., Johnson, A. T. Charlie
Format: Article
Language:English
Subjects:
Applied physics
Chemical vapor deposition
Crystal growth
Diodes
Electric potential
Field effect transistors
Junction diodes
Molybdenum disulfide
Organic chemistry
Semiconductor devices
Silicon dioxide
Single crystals
Ultraviolet radiation
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Summary:Chemical vapor deposition grown MoS2 single crystals were transferred onto the edge of a p-Si/SiO2 wafer, forming an abrupt heterogeneous junction diode at the MoS2/p-Si interface. When electrically characterized as a field effect transistor, MoS2 exhibits an n-type response and can be doped in the presence of ultraviolet (UV) light. As a diode, it operates satisfactorily in air, but has higher currents in vacuum with a turn on voltage of ∼1.3 V and an on/off ratio of 20 at ±2 V. UV irradiation increases the diode on state current, decreases the turn-on voltage, and reduces the ideality parameter below 2. These changes are reversible after annealing in air as desorption of electron trapping species like O2− and H2O− are believed responsible for this effect. A circuit integrating this diode was used to rectify a 1 kHz signal with an efficiency of 12%. Its simple design, coupled with the ability to clip AC signals, sense UV light, and reversibly tune these diodes, makes them inexpensive, multifunctional, and usable as active or passive circuit components in complex electronics.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4921238