A new paper provides a comprehensive review of heterogeneously integrated two dimensional (2D) materials from an extensive library of atomic 2D materials with selectable material properties to open up fascinating possibilities for the design of functional novel devices.
Friday, March 6, 2020
Comprehensive review of heterogeneously integrated 2D materials
A new paper provides a comprehensive review of heterogeneously integrated two dimensional (2D) materials from an extensive library of atomic 2D materials with selectable material properties to open up fascinating possibilities for the design of functional novel devices.
3D-printed tough, flexible graphene-rubber sensor for wearables
Researchers have utilized 3D printing and nanotechnology to create a durable, flexible sensor for wearable devices to monitor everything from vital signs to athletic performance.
Nanoscale 4-D printing technique may speed development of new therapeutics
The technology combines nanolithography, microfluidics, and organic chemistry to create synthetic surfaces at the scale and with the complexity of nature.
Proposed optical terahertz graphene transistor
Researchers have proposed a transistor made of graphene and a two-dimensional superconductor that amplifies terahertz (THz) signals.
Magnonic nanoantennas demonstrated: Optically-inspired computing with spin waves one step closer
An international research team demonstrates a new methodology for generating and manipulating spin waves in nanostructured magnetic materials. This work opens the way to developing nano-processors for extraordinarily quick and energy efficient analog processing of information.
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