By combining several cutting-edge imaging technologies, a new microscope system could enable unprecedentedly deep and precise visualization of metabolic and neuronal activity, potentially even in humans.
The MRL helps bring together academia, government, and industry to accelerate innovation in sustainability, energy, and advanced materials.
You can adjust the frequency range of this durable, inexpensive antenna by squeezing or stretching its structure.
MIT engineers used a machine-learning model to design nanoparticles that can deliver RNA to cells more efficiently.
The Initiative for New Manufacturing is convening experts across the Institute to drive a transformation of production across the U.S. and the world.
With dual degrees and a passion for leadership, Leaders for Global Operations graduates transform Amazon’s fulfillment network while mentoring future leaders.
Device Research Lab study uncovers mechanisms behind a phenomenon that can impact civil engineering, desalination, coatings, membrane design, art conservation, and more.
The MIT community celebrates their fellow staff members’ talent and dedication to the Institute.
Neural Jacobian Fields, developed by MIT CSAIL researchers, can learn to control any robot from a single camera, without any other sensors.
The mechanical system could be used to deliver drugs in the GI tract or monitor aquatic environments.
Developed to analyze new semiconductors, the system could streamline the development of more powerful solar panels.
MIT’s first vice president for energy and climate is working to accelerate research and development toward transformational solutions.
The LOBSTgER research initiative at MIT Sea Grant explores how generative AI can expand scientific storytelling by building on field-based photographic data.
Rising seniors Avani Ahuja, Julianna Lian, Jacqueline Prawira, and Alex Tang are honored for their academic achievements.
Eleven faculty members have been granted tenure in six units across MIT’s School of Engineering.