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Engineering Research at Dartmouth

Dartmouth engineering researchers work within an integrated community of experts in their fields, unencumbered by departmental divisions. Our faculty and students are versatile thinkers who can define a problem, place it within the broad social and economic contexts, and articulate a clear vision for a human-centered approach toward a solution.

Most research projects are collaborations that integrate one or more engineering disciplines with other sciences. Students working in these labs learn important lessons about the interconnectedness of the world and develop both depth and breadth that make them innovators and leaders in emerging technologies.

Research by Program Area

Biological/Chemical

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Biomedical

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Electrical/Computer

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Energy

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Materials Science

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Mechanical/Operations/Systems

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Research by Activity

Culture of Collaboration

Dartmouth Engineering is a close-knit community of scholars with a broad range of expertise. The culture of collaboration extends across the hall, across campus, and beyond. Many research projects engage colleagues from other institutions such as Dartmouth-Hitchcock, Geisel School of Medicine, Tuck School of Business, Guarini School of Graduate and Advanced Studies, and CRREL, as well as industry—and offer numerous research opportunities for undergraduates.

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Research Quick Takes

Prabhat Hegde receiving the award in Seattle.

Research Webinar Competition Award

PhD student Prabhat Hegde received an Honorable Mention award at the inaugural INFORMS Minority Issues Forum (MIF) Summer Webinar Competition. Judges said Hegde's 5–10 minute research webinar, titled Rural school bus routing and scheduling with endogenous demand and traffic congestion, "demonstrated great skill and creativity." Hegde accepted the award at the INFORMS Annual Meeting in Seattle.

3D Metastructure for Better Energy Harvesting

PhD students Huan Zhao and Xiangbei Liu, and Professor Yan Li co-authored "Architecture Design of High-Performance Piezoelectric Energy Harvester with 3D Metastructure Substrate" featured on the cover of Advanced Theory and Simulations. "We achieved a remarkable 13.26-fold improvement in PEH performance by replacing the traditional solid substrate with a 3D auxetic unit-cell metastructure," says Li.

Oxygen Evolution Reaction

Professor Geoffroy Hautier is one of six co-authors of a perspective published in Nature Energy about the path to more efficient production of sustainable fuels. The researchers describe a way to map out the oxygen evolution reaction that's critical for sustainable, decarbonized fuels such as hydrogen.

Nanoparticle-Based Biosensors

PhD candidate Gabby Moss and Professor Sol Diamond co-authored "Effects of Salt Concentration on a Magnetic Nanoparticle-Based Aggregation Assay with a Tunable Dynamic Range," published in Sensors. The team experimentally demonstrated the effects of salt concentration on magnetic nanoparticle (MNP) biosensing efficacy and mathematically modeled MNP stability in solutions with different salt concentrations. "Our work can be leveraged to design an in vivo nanoparticle-based biosensor with enhanced efficacy in the event of varying salt concentrations," says Moss.

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