Life rarely unfolds exactly as we expect. Plans change, experiments produce surprising results, and questions that seem ...
Developing thermoelectric materials that efficiently convert waste heat into electricity remains challenging because high ...
Nine-atom-wide graphene nanoribbons survive gamma radiation while producing a strong electrical signal, pointing to sensors ...
Quantum technologies promise revolutionary advances in computing, sensing and information processing. However, controlling ...
Straight-chain carbon compounds like fatty acids are some of the most commonly available chemicals in nature. On the other ...
For grid-scale energy storage and national energy resilience, the U.S. needs better batteries. Lawrence Livermore National ...
Researchers at the College of Design and Engineering at the National University of Singapore have identified a key design ...
Nanoscale voids between atom-thin materials and electrodes can dominate quantum leakage, revealing a practical design rule ...
Atomera Incorporated advances MST technology for next-gen semiconductors, targeting GAA, GaN, and memory markets. Read more ...
Nuclear reactors are traditionally powered with dense fuel rods that can produce about 1 gigawatt of carbon-free electricity, ...
A breakthrough 8-inch production line aims to scale ultra-thin 2D semiconductors from the lab to the factory floor.
In drug discovery, building complex molecules quickly is the name of the game. Chemists want molecules with increasingly three-dimensional atomic structures because they may be more potent and ...
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