Simulations could help molecular engineers enhance creation of semiconducting nanomaterials.
Physicists have reported the first experimental evidence to explain the unusual electronic behavior behind the world’s thinnest superconductor.
Four studies explore chemical-free pretreatment methods and development of high-throughput phenotyping methods to produce fuel from energycane.
Scientists at Fermilab and the University of Chicago claim the new experiment opens up field for new physics.
A UC Riverside dark matter research program targets assumptions about particle physics.
The funding will support the researchers’ projects to develop advanced energy solutions to help mitigate climate change.
The new model, created by MIT researchers, could help predictive virtual models become standard practice in engineering.
A team led by investigators at NYU Tandon created a means of increasing the speed & efficiency of a key doping process for perovskite solar cells.
Over the years, nearly 50 NIU faculty and student researchers contributed to Fermilab’s “Muon g-2 experiment.”
Grant will help better understand how fluid flows through fractured rock to create more efficient methods of monitoring geothermal energy production.