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The new study published in Science Advances shows how the combination of three advanced technologies can reveal the metabolic interactions between human brain cells.
Professor Vikrant Vaze's team demonstrates that, when carefully applied, machine learning tools can save precious time—and therefore money—in the decision-making process for aircraft scheduling recovery.
A team led by Professor Don Perovich was awarded $296,000 to increase the number and capability of seasonal ice mass balance buoys that improve understanding of sea ice change.
Dartmouth Engineering won a $10,000 NCEES Engineering Education Award for a student project that leverages technology to help municipalities make better planning choices for pedestrians and cyclists.
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Research Quick Takes
NIH Grant Supports New Tools for Neuroscience
Professor Hui Fang's research group was awarded $2.6M over five years from NIH to develop and optimize a new type of microelectrode array probe used for parallel neuromodulator sensing and electrophysiological recording. "Refining and validating this type of probe would directly enable numerous studies in both basic and translational neuroscience, would be applicable to many other devices, such as DBS and sEEG electrodes, and would also bring the technology a significant step closer to commercial manufacturing," said Fang.
Silicon for the Quantum Defect Era
Research associates Yihuang Xiong and Jiongzhi Zheng, PhD student Shay McBride, and Professor Geoffroy Hautier are co-authors of "Computationally Driven Discovery of T Center-like Quantum Defects in Silicon" published in Journal of the American Chemical Society. "Finding new 'quantum defects' facilitates bringing quantum technologies to real world scalable technologies." says Hautier. Adds Xiong, "Our study identifies several silicon defects that were overlooked before the quantum defect era and proposes high-yield synthesis routes."
On the Future of Flexible Electronics
Professor Will Scheideler authored "Nimble native oxides: Printing circuits from the skin of liquid metal," published in Matter, which focuses on new two-dimensional metal oxides that are thin, transparent, and flexible. "This preview highlights the opportunities for new applications of flexible and printed electronics and discusses a few of the most important challenges for this emerging research field," says Scheideler.
BMES Annual Meeting
At the 2024 Biomedical Engineering Society (BMES) Annual Meeting in Baltimore, MS student Anisia Tiplea '24 presented her senior honors thesis, and Hixon Lab gave an invited talk on their bone regeneration work supported by the Dartmouth Innovations Accelerator for Cancer.