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In 2018, Cornell researchers built a high-powered detector that, in combination with an algorithm-driven process called ptychography, set a world record by tripling the resolution of a state-of-the-art electron microscope.
Cornell is partnering in a $36 million grant from the Toyota Research Institute for its Accelerated Materials Design and Discovery collaborative university research program, which seeks to use artificial intelligence to discover new materials that could help achieve emissions-free driving.
Cornell engineers used precisely timed laser pulses to control changeable properties in a quantum material, pioneering a method that may have wide applications across a class of materials with immense technological interest.
Cornell engineers and plant scientists have teamed up to develop a low-cost system that allows grape growers to predict their yields much earlier in the season and more accurately than costly traditional methods.
Cornell has become one of the first U.S. universities to partner with the council, communicating the benefits of wind power and providing industry research in more than 80 countries.
More than 30 students presented their research on a wide range of topics during the 35th Cornell Undergraduate Research Board Spring Symposium, held virtually May 4-7.
Judy Cha, Ph.D. '09, and Alex Kwan, Ph.D. '09, will bring to their alma mater expertise in nanoscale materials and cellular-resolution optical imaging, respectively.
Cornell Engineering will grow the number of students it invites to its CATALYST Academy – a program aimed at inspiring minority students to study engineering – thanks to a $2 million gift from Peter Wright ’75, MBA ’76.
Ed Camacho of the Cornell NanoScale Science and Technology Facility has created what is thought to be the world’s smallest rendition of Cornell’s iconic McGraw Tower – complete with its 161 interior steps, two sets of stairs and 21 bells.
