MIT scientists use a new type of nanoparticle to make vaccines more powerful
Study shows metal-organic particles can both deliver vaccines and act as an adjuvant to generate a strong immune response at a lower dose.
Study shows metal-organic particles can both deliver vaccines and act as an adjuvant to generate a strong immune response at a lower dose.
Materials from MIT’s Distinctive Collections reveal stories of women at the Institute.
Award honors “scientists who have made a transformational contribution toward the improvement of human health.”
Two professors and three additional alumni recognized for “dreaming up solutions to global challenges — advancing health, sustainability, and human connection.”
Awarded $65.67 million from ARPA-H, the researchers will work to develop ingestible capsules that deliver mRNA and electric stimuli to treat metabolic disorders such as diabetes.
Faculty and researchers across MIT’s School of Engineering receive many awards in recognition of their scholarship, service, and overall excellence.
Twelve researchers selected as finalists for 2023-24 MIT-Royalty Pharma Prize Competition to support female entrepreneurs in biotech.
Atacama Biomaterials, co-founded by Paloma Gonzalez-Rojas SM ’15, PhD ’21, combines architecture, machine learning, and chemical engineering to create eco-friendly materials.
Senior and MIT Crew member Tatum Wilhelm balances her chemical engineering and anthropology studies with early mornings on the Charles River.
To make the new entertainment venue a reality, Jared Miller ’98, MBA ’03, SM ’03 assembled a team that reflected his experience at MIT.
The advance makes it easier to detect circulating tumor DNA in blood samples, which could enable earlier cancer diagnosis and help guide treatment.
MIT chemical engineers create a zwitterionic hydrogel system for single-step water treatment with minimal environmental footprint.
MIT Koch Institute researchers Daniel Anderson and Ana Jaklenec, plus 11 MIT alumni, are honored for inventions that have made a tangible impact on society.
MIT researchers find that in mice and human cell cultures, lipid nanoparticles can deliver a potential therapy for inflammation in the brain, a prominent symptom in Alzheimer’s.