Bilayer graphene, comprising two vertically stacked graphene layers, can exploit externally applied electric fields to modulate its electronic band gap—a property essential for electron transport.

Bilayer graphene, comprising two vertically stacked graphene layers, can exploit externally applied electric fields to modulate its electronic band gap -- a property essential for electron transport.

Takashi Taniguchi of NIMS. Bilayer graphene, composed of two stacked graphene layers, can utilize externally applied electric fields to adjust its electronic band gap—a crucial property for ...

Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore 637371 ...

The paper shows new perspectives ... Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a study led by ...

School of Optical and Electronic Information, Suzhou City University, Suzhou 215104, People’s Republic of China Jiangsu Key Laboratory and Suzhou Key Laboratory of Biophotonics, Suzhou City University ...

Together these three men were known as the Gap Band. Together, these brothers lead the charge when it came to the creation and performance of funk/R&B music. The brothers retired from their career as ...

Led by Josh Folk at the University of British Columbia, the group observed the effect in a stack of bilayer and trilayer graphene that is twisted at a specific angle. In a classical electrical ...

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