How federal research support has helped create life-changing medicines
A new study finds over half the drugs approved this century cite government-funded research in their patents.
AI system learns from many types of scientific information and runs experiments to discover new materials
The new “CRESt” platform could help find solutions to real-world energy problems that have plagued the materials science and engineering community for decades.
Study shows mucus contains molecules that block Salmonella infection
MIT researchers now hope to develop synthetic versions of these molecules, which could be used to treat or prevent foodborne illnesses.
New AI system could accelerate clinical research
By enabling rapid annotation of areas of interest in medical images, the tool can help scientists study new treatments or map disease progression.
Technique makes complex 3D printed parts more reliable
New research enables computer designs to incorporate the limitations of 3D printers, to better control materials’ performance in aerospace, medical, and other applications.
MIT engineers develop a magnetic transistor for more energy-efficient electronics
A new device concept opens the door to compact, high-performance transistors with built-in memory.
MIT’s work with Idaho National Laboratory advances America’s nuclear industry
The collaboration has led to new fuels and a variety of other projects to enable clean, safe nuclear energy.
MIT affiliates win AI for Math grants to accelerate mathematical discovery
Department of Mathematics researchers David Roe and Andrew Sutherland seek to advance automated theorem proving; four additional MIT alumni also awarded.
New tool makes generative AI models more likely to create breakthrough materials
With SCIGEN, researchers can steer AI models to create materials with exotic properties for applications like quantum computing.
What does the future hold for generative AI?
At the inaugural MIT Generative AI Impact Consortium Symposium, researchers and business leaders discussed potential advancements centered on this powerful technology.
Inflammation jolts “sleeping” cancer cells awake, enabling them to multiply again
Chemotherapy-induced injury of organ tissue causes inflammation that awakens dormant cancer cells, which may cause new tumors to form.
Could a primordial black hole’s last burst explain a mysteriously energetic neutrino?
If a new proposal by MIT physicists bears out, the recent detection of a record-setting neutrino could be the first evidence of elusive Hawking radiation.
A more precise way to edit the genome
MIT researchers have dramatically lowered the error rate of prime editing, a technique that holds potential for treating many genetic disorders.
Working to make fusion a viable energy source
As the Norman C. Rasmussen Adjunct Professor, George Tynan is looking forward to addressing the big physics and engineering challenges of fusion plasmas.
Q&A: On the challenges of operating in the Arctic
How does one access and conduct research in one of the world’s harshest and most demanding environments? Lincoln Laboratory undersea systems engineer David Whelihan explains.