A transparent and stretchable touch sensor could enable robust touch input mapping under either static or dynamic deformation.
A stitch in time: How a quantum physicist invented new code from old tricks
An exciting and exotic approach to minimizing error in quantum computation re-purposes a known code to achieve what many researchers thought was impossible.
Solving real-life problems with temporal association rules
Researchers discuss how to extract valuable information from databases to aid decision making in emergencies, such as the current pandemic.
High-efficiency indoor perovskite photovoltaics on ultra-thin glass
Flexible perovskite photovoltaic cells on ultra-thin glass achieve remarkable efficiencies under indoor illumination.
Biocompatible organic transistors
Bridging the gap between biology and electronics, researchers develop biocompatible materials for next generation biosensors, cell monitoring, neuromorphic computing, and more.
Scientists create supervised randomness to mimic our own neural network
Controlling the probability of a series of seemingly random events is the key to mimicking the human brain to optimize neuromorphic learning.
Supercomputer simulates molecular model of SARS-CoV-2
Researchers at UT Austin hope their computer model of COVID-19 can help other scientists in developing new drugs against the virus.
Computer modeling reveals details of how cells fix damage to our DNA
Computer modeling decodes the chemistry carried out by complex DNA repair enzymes to remove DNA damage caused by environmental exposure.
Using computational screens to identify 2D materials for battery anodes
Computational screens allow researchers to efficiently determine how different elemental combinations can alter material properties to quickly identify 2D materials for next generation battery anodes.
Creating better models for offshore wind turbines
Dutch researchers develop a new computational model that could help turbine designers manage large uncertainties in wind and wave behavior.