The Office of Academic Integration has awarded $750,000 in seed grants to 10 studies ranging from refugee health and legal rights, to a vaccine treating fentanyl addiction and overdose, to pancreatic cancer and antibiotic tolerance.
Physicist Eun-Ah Kim is leading the way toward applications of quantum mechanics, including the discovery of new quantum materials and the development of quantum computing.
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.
A Cornell-led collaboration has discovered a new approach for making a lead-free antiferroelectric material that performs as well as its toxic relatives.
Cornell researchers have developed nanostructures that enable record-breaking conversion of laser pulses into high-harmonic generation, paving the way for new scientific tools for high-resolution imaging.
With a little twist and the turn of a voltage knob, Cornell researchers have shown that a single material system can toggle between two of the wildest states in condensed matter physics.
Researchers grew a thin film of one of the oldest known superconductors on top of a semiconductor, and for the first time measured the electronic properties of the junction between the two materials, paving the way for hybrid superconductor-semiconductor quantum devices.
Cornell researchers have for the first time imaged the entire depth of the lymph nodes in a living mouse using three-photon microscopy, which enabled them to observe the dynamic interactions of immune cells.
Cornell researchers have found a way to train physical systems, ranging from computer speakers and lasers to simple electronic circuits, to perform machine-learning computations, such as identifying handwritten numbers and spoken vowel sounds.
More than 70 faculty from Weill Cornell Medicine, Cornell Engineering and Cornell Tech assembled Oct. 1 at the Statler Ballroom — and more joined remotely — to kick off the Cornell Engineering Innovations in Medicine initiative.
Cornell researchers have developed a method of magneto-thermal imaging that offers nanoscale and picosecond resolution previously available only in synchrotron facilities.
A group led by applied and engineering physics professor David Muller has achieved a record for electron microscopy resolution, using a device developed at Cornell by professor Sol Gruner.
