In the Spring 2022 Hans Bethe Lecture, physicist John Martinis will explain the basic concepts behind quantum computing, show recent data from a “quantum supremacy” experiment and explain future uses of quantum algorithms.
New research from Cornell scientists is exploring how human genetics impacts functions of the gut microbiome, and is expanding awareness of the role human genetics plays in shaping the microbiome.
In making hydrogen a viable, clean-energy alternative to carbon-based fuels, Cornell and two research-startups have joined a consortium that aims to propose a Northeast research hub.
The Cornell High Energy Synchrotron Source celebrated the groundbreaking for its new $32.6 million High Magnetic Field beamline – the facility’s latest milestone.
A Cornell-led project has created synthetic nanoclusters that can mimic hierarchical self-assembly all the way from the nanometer to the centimeter scale, spanning seven orders of magnitude.
Researchers have discovered a new path for polystyrene, a type of plastic that makes up a third of landfill waste worldwide, that includes being upcycled into benzoic acid - a chemical with wide commercial demand.
The newest cohort of Ph.D. candidates in Cornell Engineering's Commercialization Fellowship will spend the remainder of the year learning the skills and tools to bring their technologies to market.
Master’s student Carol Anne Barsody is working with an array of interdisciplinary collaborators to explore the origins of a mummified bird and create a multisensory exhibition that rethinks the way ancient artifacts are presented in museums.
Cornell engineers have created a deep-ultraviolet laser using semiconductor materials that show great promise for improving the use of ultraviolet light for sterilizing medical tools, purifying water and sensing hazardous gases.
