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An interdisciplinary collaboration has developed a way to 3D-print concrete underwater – a technique that could transform on-site maritime construction and the repair of critical infrastructure.
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.
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.
Contributions unveiled tools for analyzing environmental and health interventions, matching images to architectural plans, and generating realistic 3D scenes with unprecedented efficiency.
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.
New grant funding will support eight research projects seeking to reduce AI’s energy use and integrate AI in environmental research.
By studying the theoretical limits of how light can be used to perform computation, Cornell researchers have uncovered new insights and strategies for designing energy-efficient optical computing systems.
A custom-built, metal-organic chemical vapor deposition system in Duffield Hall will help forge new directions for nitride semiconductors, materials best known for enabling LEDs and 5G communications.
