MIT J-WAFS awards eight grants in seventh round of seed funding
Ten principal investigators from seven MIT departments and labs will receive up to $150,000 for two years, overhead-free, for innovative research on global food and water challenges.
2021 MITx Prize winners build community on campus and across the globe
MIT instructors honored for creating multidimensional, multidisciplinary online courses that help learners everywhere address real-world problems.
Using machine learning to predict high-impact research
DELPHI, an artificial intelligence framework, can give an “early-alert” signal for future key technologies by learning from patterns gleaned from previous scientific publications.
Accelerating the pace of engineered cell therapies, from lab to bedside
Kytopen is speeding up both discovery and delivery of engineered cell therapies with its transformative Flowfect platforms.
Annual KSA meeting envisions Kendall Square coming back “better than ever”
The Cambridge-area innovation hub has been buffeted by the events of the past year but also shown great resilience and creativity, speakers said.
ChoKyun Rha, professor post-tenure of biomaterials sciences and engineering, dies at 87
Mentor to many worked to develop natural medicinal and industrial products.
Brewing up a dirty-water remedy (and more) with kombucha-inspired biosensors
PhD student and 2017 J-WAFS graduate fellow Tzu-Chieh Tang designs living materials to solve environmental challenges, with an emphasis on safety and scalability.
Robert Weinberg receives 2021 Japan Prize
The award recognizes Weinberg’s pioneering achievements in the field of cancer biology.
A new tool to investigate bacteria behind hospital infections
Scalable CRISPRi system from SMART allows scientists to identify and tackle causes of E. faecalis-related diseases and drug resistance.
An origami-inspired medical patch for sealing internal injuries
The patch, which can be folded around surgical tools, may someday be used in robotic surgery to repair tissues and organs.
Could lab-grown plant tissue ease the environmental toll of logging and agriculture?
MIT researchers grow structures made of wood-like plant cells in a lab, hinting at the possibility of more efficient biomaterials production.
SMART researchers use lysins to selectively target bacteria
The discovery can help to cure bacterial infections without inducing resistance or causing harm to good bacteria.
Lincoln Laboratory establishes Biotechnology and Human Systems Division
Will focus on responding to disasters and humanitarian crises, defending against biothreats, addressing climate change, and improving human health and performance.
MIT launches Center for Multi-Cellular Engineered Living Systems
M-CELS are purpose-driven living systems with multiple interacting living components.
SMART researchers develop gelatin microcarrier for cell production
Gelatin-based microcarriers offer higher yield and scalability compared to existing commercial microcarriers.