atomic-layer

Atomic layer 3D printing

Not only is current lithography slow, it also wastes materials and energy, is poorly adapted to combining a large number of distinct materials, and extremely…

On the way to robust quantum computers

The development of quantum computers is the major goal of industrial and university research efforts worldwide. The main problem in the realization of a…

2D atomic crystals probe: how hot it is in a plasmonic 'hotspot'

Measuring surface-enhanced Raman scattering (SERS) signal from a probe inside the nanogap region is a promising avenue to do that, but it still faces several…

A new kind of quantum bits in two dimensions

Two novel materials, each composed of a single atomic layer and the tip of a scanning tunneling microscope – these are the ingredients to create a novel kind…

Functional films and efficient coating processes

Control and monitoring of coating processes inline – for the first time

UNIST engineers oxide semiconductor just single atom thick

This new ultra-thin oxide semiconductors was created by a team of scientists, led by Professor Zonghoon Lee of Materials Science and Engineering at UNIST. In…

Thin, flexible, light-absorbent material for energy and stealth applications

The material, called a near-perfect broadband absorber, absorbs more than 87 percent of near-infrared light (1,200 to 2,200 nanometer wavelengths), with 98…

Light detector with record-high sensitivity to revolutionize imaging

The research team led by Professor Hele Savin has developed a new light detector that can capture more than 96 percent of the photons covering visible,…

Penn researchers make thinnest plates that can be picked up by hand

Researchers at the University of Pennsylvania have now created the thinnest plates that can be picked up and manipulated by hand.

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