A team of researchers led by Nav Nidhi Rajput at Stony Brook U found a way to computationally predict stable molecular species in liquid solutions.
The new study, led by researchers at the University of Michigan Medical School, provides insights into how the microbiome processes seaweed.
Researchers captured experimental evidence that sheds light on the mechanism of high temp superconductivity in the so-called cuprate superconductors.
Using a genome-wide approach allowed the scientists to tailor CROPSR for plant use by removing built-in biases found in existing software tools.
The team used the world's largest X-ray laser, the European XFEL, to take pictures of complex molecules.
By publishing more than 50 scientific papers and with a quantum control systems roadmap in place, QSA has spearheaded state-of-the-art advancements.
The experiments suggest how to make atomic clocks 50 times more precise and may reveal how relativity and gravity interact with quantum mechanics.
A new study from the MSU-DOE Plant Research Laboratory brings fresh insight on the source/sink balance of cyanobacteria.
Using new calculational techniques and one of the world’s largest computers, researchers simulated the era when axions would have been produced.
The material could replace rare metals and lead to more economical production of carbon-neutral fuels.