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An interdisciplinary research team received a five-year, $2 million grant from the National Science Foundation to develop a new generation of biosynthetic lubricants that have the potential to treat arthritis and reduce the painful friction of artificial joints.
Unused solar, wind and hydroelectric power in the U.S. could support the exponential growth of transactions involving non-fungible tokens, Cornell Engineering researchers have found.
New Cornell research shows the metaverse – a virtual 3D environment in which the physical and digital worlds converge – could have environmental benefits: lowering the global surface temperature by up to 0.02 degrees Celsius before the end of the century.
A new Cornell study examines the long-term energy and sustainability prospects of increasing domestic electric vehicle battery production.
In a first-of-its-kind analysis, Cornell researchers and partners at the Clinton Health Access Initiative found that pharmaceutical producers could reduce their environmental impact by roughly half by optimizing manufacturing processes and supply chain networks and by switching to renewable energy sources.
A Cornell-led collaboration harnessed chemical reactions to make microscale origami machines self-fold – freeing them from the liquids in which they usually function, so they can operate in dry environments and at room temperature.
Robert Langer ’70, whose pioneering work in biotechnology, drug delivery and tissue engineering has made him one of the most prolific inventors in medicine, received the Cornell Engineering Distinguished Alumni Award during a celebration hosted April 19.
Using a biomaterials-based organoid, a multi-institution team led by Matt DeLisa of Cornell Engineering was able to assess the strength of the immune response to a glycoengineered vaccine in days, instead of months.
As automobile electrification speeds up, the world faces a need for critical metals to make these vehicles possible, with high demand setting off economic snags and supply-chain hitches.
Domestic production of photovoltaic solar panels – now made in Asia – can speed up decarbonization and reduce atmospheric climate change faster, according to new Cornell Engineering research.
