Muhammad Farooq Khan scite author profile

Precise doping-profile engineering in van der Waals heterostructures is a key element to promote optimal device performance in various electrical and optical applications with two-dimensional layered materials. Here, we report tungsten diselenide- (WSe2) based pure vertical diodes with atomically defined p-, i- and n-channel regions. Externally modulated p- and n-doped layers are respectively formed on the bottom and the top facets of WSe2 single crystals by direct evaporations of high and low work-function metals platinum and gadolinium, thus forming atomically sharp p–i–n heterojunctions in the homogeneous WSe2 layers. As the number of layers increases, charge transport through the vertical WSe2 p–i–n heterojunctions is characterized by a series of quantum tunneling events; direct tunneling, Fowler–Nordheim tunneling, and Schottky emission tunneling. With optimally selected WSe2 thickness, our vertical heterojunctions show superb diode characteristics of an unprecedentedly high current density and low turn-on voltages while maintaining good current rectification.

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MoTe₂van der Waals homojunction p–n diode with low resistance metal contacts

Aftab

Khan

Gautam

et al. 2019

Nanoscale

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Synthesis, properties and novel electrocatalytic applications of the 2D-borophene Xenes

Khan

Tareen

Aslam³

et al. 2020

Progress in Solid State Chemistry

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Formation of an MoTe₂ based Schottky junction employing ultra-low and high resistive metal contacts

et al. 2019

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