In the study, the team demonstrated that using thin 2D materials, like the semiconductor molybdenum disulfide (MoS2), in combination with silicon, can create highly efficient electronic devices with ...

This breakthrough is highly significant, as it allows for the direct utilization of as-grown 2D materials on vdW dielectrics at the device level, minimizing the detrimental effects caused by ...

The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...

In their latest work, researchers have combined MoS2 with palladium nanosheets to create 2D structures with broadband ... bonded interface between the two materials. The spectroscopic analysis of the ...

Researchers have chemically linked 2D materials using a molecular "velcro," resulting in a device with improved optoelectronic properties. The device, made of palladium nanosheets covalently ...

Scientists in Korea using 2D semiconducting materials discovered a new quantum state that could pave the way for more ...

Three exotic new species of superconductivity were spotted last year, illustrating the myriad ways electrons can join together to form a frictionless quantum soup.

In terms of applications, the extraordinary properties of magic-angle twisted 2D materials could lead to the development of novel electronic devices, such as high-temperature superconductors, quantum ...

This 2D material can be seamlessly integrated into devices, enabling new applications for signal processing and communication. Previous works combining THz light and graphene primarily focused on ...

In a remarkable feat of chemistry, a Northwestern University-led research team has developed the first two-dimensional (2D) mechanically interlocked material. Resembling the interlocking links in ...

In the study, the team demonstrated that using thin 2D materials, like the semiconductor molybdenum disulfide (MoS 2), in combination with silicon, can create highly efficient electronic devices ...