Understanding the impacts of mining on local environments and communities
Extractive industries threaten water, glaciers, and livelihoods, but new research offers hope.
Extractive industries threaten water, glaciers, and livelihoods, but new research offers hope.
In field tests, MIT spinoff AgZen demonstrated that its feedback-optimized spraying system could halve the pesticide needs of farms and improve crop yields.
State-of-the-art toolset will bridge academic innovations and industry pathways to scale for semiconductors, microelectronics, and other critical technologies.
MIT DMSE hosts its first-ever jobs fair, attracting industry giants, startups, and students for networking and career exploration.
By blending 2D images with foundation models to build 3D feature fields, a new MIT method helps robots understand and manipulate nearby objects with open-ended language prompts.
Coauthors of a “Footwear Manifesto” report discuss survey findings that point to industry collaboration as a path to reducing waste in shoe manufacturing.
The low-cost FibeRobo, which is compatible with existing textile manufacturing techniques, could be used in adaptive performance wear or compression garments.
At MIT, a driving force in the chip-making industry discusses the rise of TSMC and Taiwan as a manufacturing center.
The Spark Photonics Foundation works with educators to get K-12 and college students interested in STEM fields, including advanced manufacturing and semiconductors.
StructCode, developed by MIT CSAIL researchers, encodes machine-readable data in laser-cut objects by modifying their fabrication features.
Lincoln Laboratory hosts students enrolled in the Massachusetts Microelectronics Internship Program, aimed at training a new generation of microelectronics leaders.
J-WAFS awards 2023 Solutions Grants to bring two water-related innovations to the market.
Developed by MIT researchers, BrightMarkers are invisible fluorescent tags embedded in physical objects to enhance motion tracking, virtual reality, and object detection.
A pilot-scale system, enabled by an $82 million award from the FDA, aims to accelerate the development and production of mRNA technologies.
A new computational method facilitates the dense placement of objects inside a rigid container.