A research team has taken inspiration from principles found in nature and developed the "hyperelastic torque reversal ...

Recent technological advances have enabled the development of increasingly sophisticated and energy-efficient displays for ...

Seoul National University College of Engineering announced that Professor Kyu-Jin Cho's research team from the Department of ...

That behavior is referred to as intrinsic optical bistability. The nanocrystals' intrinsic optical bistability is an advance toward photonic integrated circuits that may be able to outperform ...

Published in Nature Photonics ("Intrinsic optical bistability of photon avalanching nanocrystals"), the study by Skripka and collaborators at Lawrence Berkeley National Laboratory, Columbia University ...

Nanocrystals exhibit a fascinating phenomenon known as “intrinsic optical bistability.” Intrinsic optical bistability could pave the way for photonic integrated circuits that could surpass ...

That behavior is referred to as intrinsic optical bistability. "If the crystals are dark to start with, we need a higher laser power to switch them on and observe emission, but once they emit ...

That behavior is referred to as intrinsic optical bistability. The nanocrystals’ intrinsic optical bistability is an advance toward photonic integrated circuits that may be able to outperform current ...

A new n-doped polymer developed by Purdue University offers improved energy efficiency and flexibility for electrochromic displays.

Research indicates that strong vibronic coupling can create barriers that maintain bistability in molecular QCA systems, even when the Coulomb interactions are not extremely strong. This opens up ...