A new, inexpensive catalyst speeds the production of oxygen from water
The material could replace rare metals and lead to more economical production of carbon-neutral fuels.
The material could replace rare metals and lead to more economical production of carbon-neutral fuels.
A new analysis offers guidance on the size of nanoparticles that could be most effective at stopping internal bleeding.
Senior Heidi Li strives to help local communities understand how they can influence policymaking to achieve a more sustainable future.
Heather Kulik embraces computer models as “the only way to make a dent” in the vast number of potential materials that could solve important problems.
Through MIT’s Undergraduate Research Opportunities Program, students explore research topics relevant to their own interests, the MCSC, and member companies.
The new substance is the result of a feat thought to be impossible: polymerizing a material in two dimensions.
New fellows are working on electronic health record algorithms, remote sensing data related to environmental health, and neural networks for the development of antibiotics.
MIT senior Ayomikun Ayodeji seeks to expand access to reliable, affordable energy in his home country of Nigeria, and beyond.
A pill that releases RNA in the stomach could offer a new way to administer vaccines, or to deliver therapies for gastrointestinal disease.
Faculty members recognized for excellence via a diverse array of honors, grants, and prizes.
The targeted approach eliminated tumors in mice, with minimal side effects.
Karthish Manthiram, visiting assistant professor of chemical engineering, has been honored as Committed to Caring for encouraging students to live balanced lives.
Chemical engineers created a coating for microbes that could make it easier to deploy the organisms to treat gastrointestinal disease.
Sihao Huang, William Kuhl, Tingyu Li, Giramnah Peña-Alcántara, Sreya Vangara, and Kelly Wu will pursue graduate studies in global affairs at Tsinghua University in Beijing.
A deep learning model rapidly predicts the 3D shapes of drug-like molecules, which could accelerate the process of discovering new medicines.