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Imaging the atomic details of materials as they function, forming microfluidic structures to study plants and animals, and new techniques for manufacturing polymer nanomaterials are among some of the research themes that helped six faculty members earn Cornell Engineering Research Excellence Awards.
A consortium organized by Cornell and four other New York-based leaders in semiconductor research and development has been awarded $40 million by the U.S. Department of Defense to advance microelectronics innovation and manufacturing.
With the appointment of an expert in engineering education, the Cornell NanoScale Science and Technology Facility brings strategic focus to preparing engineers and engineers-in-training for careers in nanoscience and microchip manufacturing.
A two-week program that introduces high school seniors to nanofabrication is one of many efforts at the Cornell NanoScale Facility to prepare a workforce - as the microchip industry settles in upstate New York.
Researchers developed a more controlled way of making nickelates, a material that could potentially help pinpoint the key qualities that enable high-temperature superconductivity.
A novel way to analyze complex network contagion and a new material to improve quantum computers, among other devices, is what two Cornell Engineering faculty members will be working toward, respectively, as recipients of 2024 Air Force Office of Scientific Research Young Investigator Research Program grants.
Researchers led by Cornell have discovered an unusual phenomenon in a metal-insulating material, providing valuable insights for the design of materials with new properties by way of faster switching between states of matter.
For the first time in Cornell Engineering’s history, every school and department currently has, or will soon have, a woman faculty member on the college’s executive leadership team. The milestone comes as the college celebrates the 140th anniversary of its first woman engineer.
New research has shown that ultrasmall Cornell Prime Dots, or C’Dots, which are among the nanocarriers for therapeutics once thought to be viable only by injection, have the potential to be administered orally.
Researchers developed a method to efficiently engineer intricate nanostructures through a form of phase separation – a process akin to the way water and oil uncouple in salad dressing.
