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Cornell Engineering researchers are part of a research group that has applied a new X-ray-based reconstruction technique to observe topological defects in a nanoscale self-assembly-based cubic network structure of a polymer-metal composite material.
A supercrystal formation previously unobserved in the thin-film Mott insulator Ca2RuO4 was discovered by a Cornell-led research team, potentially unlocking new ways to engineer materials and devices with tunable electronic properties.
From exploring the mechanics of early-stage bone metastasis to analyzing price formation policies in wholesale electricity markets, Cornell Engineering’s Sprout Awards are funding unique research projects with the potential to grow partnerships across Cornell.
TeraPore Technologies, co-founded by Rachel Dorin, Ph.D. ’13, and its novel nanofiltration products are changing how the pharmaceutical industry is reducing risk of harmful virus contamination in biological drugs.
Andela Products, an upstate New York business, teamed up with Ryan Greene ’23, M.Eng. ’24, a student in materials science and engineering, to research how waste glass can be turned into an agricultural fertilizer.
A gift establishing the Professor William Maxwell '56 Fellows will financially support research professors and students affiliated with Cornell's Engineering Innovations in Medicine initiative.
An interdisciplinary team developed a backchannel method that uses solubility, not entropy, to overcome thermodynamic constraints and synthesize high-entropy oxide nanocrystals at lower temperatures.
