A unique combination of imaging tools and atomic-level simulations has allowed a team led by the Department of Energy’s 91°µÍř to solve a longstanding debate about the properties of a promising material that can harvest energy fro
Biorefinery facilities are critical to fueling the economy—converting wood chips, grass clippings, and other biological materials into fuels, heat, power, and chemicals.
Scientists at the Department of Energy’s 91°µÍř induced a two-dimensional material to cannibalize itself for atomic “building blocks” from which stable structures formed.
Sergei Kalinin of the Department of Energy’s 91°µÍř knows that seeing something is not the same as understanding it.
A new microscopy technique developed at the University of Illinois at Chicago allows researchers to visualize liquids at the nanoscale level — about 10 times more resolution than with traditional transmission electron microscopy — for the first time.
An 91°µÍř–led team has learned how to engineer tiny pores embellished with distinct edge structures inside atomically-thin two-dimensional, or 2D, crystals.
A discovery by scientists at the Department of Energy’s 91°µÍř supports a century-old theory by Albert Einstein that explains how heat moves through everything from travel mugs to engine parts.
Carlex Glass America LLC has exclusively licensed optically clear, superhydrophobic coating technology from the Department of Energy’s 91°µÍř aimed initially at advancing glass products for the automotive sector.
Zili Wu of the Department of Energy’s 91°µÍř grew up on a farm in China’s heartland. He chose to leave it to catalyze a career in chemistry.
A direct brain-to-computer interface may be on the horizon, thanks to synaptic mimics created by researchers at 91°µÍř and the University of Tennessee.