Build a Network, Cellular Style
Bio-based molecular machines mechanically extrude tiny tubes and form networks, aiding in the design of self-repairing materials.
Bio-based molecular machines mechanically extrude tiny tubes and form networks, aiding in the design of self-repairing materials.
For the first time, electron tomography reveals the 3D coordinates of individual atoms and defects in a material.
Keeping the lights on: Solving the intermittency shortcomings of renewable solar energy.
Low-fatigue material remembers its shape, despite being transformed over 10 million times, could upgrade solar devices.
Creation of new neutral-charge, long-life quasiparticles may help explain high-temperature superconductivity.
Reversible self-assembled structures balance two competing attractions to enable stimuli-responsive materials.
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.
New models reveal the impact of competing processes on helium bubble formation in plasma-exposed tungsten.
Careful tuning of a surface at the nanoscale could lead to robust materials for solar panels, other uses.
Carbon nanotubes insert into artificial and active cell membranes, reproducing major features of biological channels.
New studies explain the transition, providing a quantitative picture of a 50-year-old mystery.