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More than $520 million in contributions from David A. Duffield ’62, MBA ’64 – including a new pledge of $371.5 million and a 2025 commitment of $100 million, combined with previous gifts – will establish the Cornell David A. Duffield College of Engineering.
Smaller grains – the microscopic crystal regions within the material – normally make metal stronger, but when deformed at extreme speeds, this rule flips and metals with very small grains actually become softer, new Cornell research reveals.
A class of ultrasmall fluorescent core-shell silica nanoparticles developed at Cornell is showing an unexpected ability to rally the immune system against melanoma and dramatically improve the effectiveness of cancer immunotherapy.
Revealing how psychiatric drugs reshape the brain and designing next-generation missions to find distant worlds are among the research themes that helped faculty earn Cornell Engineering Research Excellence Awards, the college’s highest recognition for groundbreaking scientific impact.
Cornell researchers have developed a new transistor architecture that could reshape how high-power wireless electronics are engineered, while also addressing supply chain vulnerabilities for a critical semiconductor material.
