Evaporation-powered Motor and Light
Bacterial spore-polymer composites harness energy from evaporation to power locomotion and generate electricity.
Bacterial spore-polymer composites harness energy from evaporation to power locomotion and generate electricity.
A new approach creates microscale bioreactors for studying complex reactions for energy production and storage.
The proton's primary building blocks, up and down quarks, are produced more often than strange quarks in scattering experiments.
Researchers computationally design a cheap, efficient catalyst that captures carbon dioxide and creates a chemical building block.
Spectroscopy combined with theory and computation determines the interaction between carbon dioxide and water.
Using computational methods, scientists tailor and adapt proteins to mine uranium from seawater.
Commercialized nanopost array platform reveals metabolic changes in individual cells due to environmental stress.
Realistic computational view of how atom stretches informs microscopic description of nuclear energy production.
Researchers determine the reaction pathway to how soot and other toxic components form in combustion systems.
Atomic-scale defects in graphene are shown to selectively allow protons to pass through a barrier that is just one carbon atom thick.
Scientists shed new light on a proton's spin, refining our understanding of nuclear physics.
New structures could accelerate progress toward faster computing and high-security data transfer across fiber optic networks.