News

A new type of soft and stretchable sensor could find uses in applications ranging from athletics and health monitoring to prosthetics and virtual reality.

The technology, called iSoft, is capable of sensing in real-time, or without delay, and can perform “multimodal” sensing, or sensing a variety of stimuli such as continuous contact and stretching in all directions.

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Researchers have demonstrated how to decode what the human brain is seeing by using artificial intelligence to interpret fMRI scans from people watching videos, representing a sort of mind-reading technology.

The advance could aid efforts to improve artificial intelligence and lead to new insights into brain function.

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Researchers have developed a new type of cooling system for high-performance radars and supercomputers that circulates a liquid coolant directly into electronic chips through an intricate series of tiny microchannels.

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Residents in several Indiana communities are part of new Purdue research determining how households consume energy. Panagiota Karava, an associate professor of civil engineering in the Lyles School of Civil Engineering, is heading up the four-year research project, which involves faculty from eight Purdue schools and departments.

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Purdue University’s Climate Change Research Center is leading a new statewide initiative to compile the latest scientific research into a series of reports designed to provide Indiana decision makers with accessible, understandable and timely information about climate change impacts.

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New efficient and inexpensive technologies being developed at Purdue University could allow the extraction of rare earth elements, critical components of many electronics and green products, from waste coal ash. This innovation could enable the U.S. to enter into the $4 billion rare earth element production market while recycling coal ash in an environmentally friendly way. The value of the products that require rare earth metals is valued at more than $4 trillion per year.

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Research led by Purdue University professor Peter Hirst shows that pollen from some apple trees may be better for pollinating high-value apples.

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Researchers are a step closer to harnessing single pulses of light called solitons, using tiny ring-shaped microresonators, in findings that could aid efforts to develop advanced sensors, high-speed optical communications and research tools.

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Purdue University researchers Michael Rossmann and Richard Kuhn have been at the forefront of discovery with the help of a technology that recently led to a Nobel Prize in chemistry for three scientists. It’s called cryo-electron microscopy, a technology that allows scientists to see complex biological specimens, including viruses, at almost atomic-scale resolution.

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Oleg Wasynczuk, a professor in Purdue’s School of Electrical and Computer Engineering, and Minyu Cai, a recent Ph.D. graduate have found a way to make smaller, more efficient motor drive systems for hybrid and electric cars, trucks, trains, ships and aircraft.

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