Multifunctional MoS Transistors with Electrolyte Gel Gating.

MoS , one of the most valued 2D materials beyond graphene, shows potential for future applications in postsilicon digital electronics and optoelectronics. However, achieving hole transport in MoS , which is dominated by electron transport, is always a challenge. Here, MoS transistors gated by electrolyte gel exhibit the characteristics of hole and electron transport, a high on/off ratio over 10 , and a low subthreshold swing below 50 mV per decade. Due to the electrolyte gel, the density of electrons and holes in the MoS channel reaches ≈9 × 10 and 8.85 × 10 cm , respectively. The electrolyte gel-assisted MoS phototransistor exhibits adjustable positive and negative photoconductive effects. Additionally, the MoS p-n homojunction diode affected by electrolyte gel shows high performance and a rectification ratio over 10 . These results demonstrate that modifying the conductance of MoS through electrolyte gel has great potential in highly integrated electronics and optoelectronic photodetectors.