Author: Kate McAlpine
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Carbon capture, utilization and storage roadmap reveals technologies that are ready to go
Concrete and construction aggregates could be carbon negative and dollar positive while sustainable aviation fuel and methanol could also turn a profit.
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U-M engineers develop professional competencies while practicing engineering skills
Experiential learning framework customizes education to help engineering students thrive by rounding out their skill sets.
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$1.2M toward a curriculum for equity-centered engineers
Michigan Engineering is creating a framework for teaching how social problems impact engineering—and how engineers can fight inequality.
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First light at the most powerful laser in the US
The ZEUS laser at the University of Michigan has begun its commissioning experiments
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Walking and slithering aren’t as different as you think
New mathematical model links up slithering with some kinds of swimming and walking, and it could make programming many-legged robots easier.
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Photosynthesis copycat may improve solar cells
The new approach moves energy efficiently and could reduce energy losses converting light into electricity.
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Machine learning begins to understand the human gut
The new computer model accurately predicts the behavior of millions of microbial communities from hundreds of experiments, an advance toward precision medicine.
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‘Fake’ data helps robots learn the ropes faster
A way to expand training data sets for manipulation tasks improves the performance of robots by 40% or more
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$2.38M to test nano-engineered brain cancer treatment in mice
A protein that crosses the blood-brain barrier carries a drug that kills tumor cells and another that activates the immune system.
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Solar car “Aevum” to test solutions ahead of next World Solar Challenge
An unusual two years in the making, the car is equipped with sensors to explore how the team can improve its design further before the 2023 race.
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Update: Augmented reality engineering startup lands $1.1M SBIR grant
University of Michigan to explore inventive uses for the technology, including material science, biology and medicine
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Emulating impossible “unipolar” laser pulses paves the way for processing quantum information
Quantum materials emit light as though it were only a positive pulse, rather than a positive-negative oscillation.