Twisting 2D materials uncovers their ... including low-frequency interlayer modes, band structure, ... Precise control of the interlayer twist angle in large scale MoS2 homostructures. Nature ...

The team of Researchers from South Korea have produced a simple method of sputtering and post-processing with electron beam irradiation (EBI). The result is a crystalline MoS 2 films, which is borne ...

The presence of the 2D material between the metal and silicon — despite the MoS2 being less than one nanometer thick — can change how current electrical charge flows. “The 2D material mainly affects ...

Also, we hope to attract additional attention to the physics of 2D material heterostructures such as our composite material which combined the properties of graphene and MoS2 single-layer ...

Prof Lee further explains the design of their model, "We fabricated a multifunctional 2D heterojunction phototransistor with a lateral p-WSe2/n-WS2/n-MoS2 structure to identify how photocurrents ...

Scientists in China have developed the world’s most complex two-dimensional (2D) semiconductor microprocessor, which is less than one nanometre thick. Scientists across the world are turning to ...

Researchers demonstrated thermal lithography. They used a probe heated above 100 degrees Celsius to outperform standard methods for making metal electrodes on 2D semiconductors such as molybdenum ...

In addition, skyrmions in 2D are smaller than those in 3D, enhancing quantum phenomena. KRISS succeeded in generating and controlling skyrmions in 2D magnets at room temperature.

Control over water friction with 2D materials points to 'smart membranes' Dramatic decrease in friction when water is passed through nanoscale capillaries made of graphene ...

Scientists in China have developed the world’s most complex two-dimensional (2D) semiconductor microprocessor, which is less than one nanometre thick. Scientists across the world are turning to ...