Physicists in Spain and the UK have calculated that graphene – a layer of carbon just one atom thick – could be used to create a perfect absorber of light if it is doped and patterned into a periodic ...

(Nanowerk News) Stanford University scientists have created the thinnest, most efficient absorber of visible light on record. The nanosize structure, thousands of times thinner than an ordinary sheet ...

Stanford University scientists have created the thinnest, most efficient absorber of visible light on record. The nanosize structure, thousands of times thinner than an ordinary sheet of paper, could ...

Stanford University scientists have created the thinnest, most efficient absorber of visible light on record. The nanosize structure, thousands of times thinner than an ordinary sheet of paper, could ...

A new flexible material developed by engineers at the University of California, San Diego (UCSD) is claimed to be able to tune out various portions of the electromagnetic spectrum while allowing ...

Resonant plasmonic and metamaterial structures allow for control of fundamental optical processes such as absorption, emission and refraction at the nanoscale. Considerable recent research has focused ...

Plasmonic metasurfaces are emerging as two-dimensional (2D) metamaterials capable of manipulating light on the nanoscale with the possibility of being incorporated into optoelectronic devices.