Designed molecules will provide positive impacts in energy production by selectively removing unwanted ions from complex solutions.
A new computational technique greatly simplifies the complex reaction networks common to catalysis and combustion fields.
Scientists determine the precise location and identity of all 23,000 atoms in a nanoparticle.
Atomically flat materials used to fabricate the world’s smallest transistor.
Controlling electrons in graphene opens a new path to potential electronic devices.
New state of matter holds promise for ultracompact data storage and processing.
Enabling study of interface thickness evolution on high-capacity battery electrodes.
Scientists use high-speed electrons to visualize “dress-like” distortions in the atomic lattice.
Use of electric fields to reversibly change a material’s hardness by up to 30 percent promises new functionalities for microphones and sensors.
Researchers trigger ultrafast response to see how molecules redistribute energy in quadrillionths of a second.
Adding manganese atoms dramatically increases solar cell energy conversion by 300%.
For the first time, scientists measured transition state energies, providing new insights into reactions used in transportation, industry, energy and more.
