How artificial intelligence can help achieve a clean energy future
AI supports the clean energy transition as it manages power grid operations, helps plan infrastructure investments, guides development of novel materials, and more.
Department
Chemical Engineering
A new take on carbon capture
Mantel, founded by MIT alumni, developed a system that captures CO2 from factories and power plants while delivering steam to customers.
Four from MIT named 2026 Rhodes Scholars
Vivian Chinoda ’25, Alice Hall, Sofia Lara, and Sophia Wang ’24 will begin postgraduate studies at Oxford University next fall.
MIT startup aims to expand America’s lithium production
Lithios, founded by Mo Alkhadra PhD ’22 and Professor Martin Bazant, is scaling up an electrochemical lithium extraction technology to secure supply chains of the critical metal.
From nanoscale to global scale: Advancing MIT’s special initiatives in manufacturing, health, and climate
MIT.nano cleanroom complex named after Robert Noyce PhD ’53 at the 2025 Nano Summit.
New lightweight polymer film can prevent corrosion
Because it’s nearly impermeable to gases, the polymer coating developed by MIT engineers could be used to protect solar panels, machinery, infrastructure, and more.
Particles that enhance mRNA delivery could reduce vaccine dosage and costs
Using these nanoparticles to deliver a flu vaccine, researchers observed an effective immune response at a much lower dose.
MIT researchers invent new human brain model to enable disease research, drug discovery
Cultured from induced pluripotent stem cells, “miBrains” integrate all major brain cell types and model brain structures, cellular interactions, activity, and pathological features.
New therapeutic brain implants could defy the need for surgery
MIT researchers created microscopic wireless electronic devices that travel through blood and implant in target brain regions, where they provide electrical stimulation.
A new patch could help to heal the heart
MIT engineers developed a programmable drug-delivery patch that can promote tissue healing and blood vessel regrowth following a heart attack.
New nanoparticles stimulate the immune system to attack ovarian tumors
Targeted particles carrying the cytokine IL-12 can jump-start T cells, allowing them to clear tumors while avoiding side effects.
New method could improve manufacturing of gene-therapy drugs
Selective crystallization can greatly improve the purity, selectivity, and active yield of viral vector-based gene therapy drugs, MIT study finds.
Support with purpose, driven by empathy
Professors Michael McDonald and Kristala Prather are honored as “Committed to Caring.”
A new system can dial expression of synthetic genes up or down
The promoter editing system could be used to fine-tune gene therapy or to more efficiently reprogram cells for therapeutic use.
How to reduce greenhouse gas emissions from ammonia production
Proposed system would combine two kinds of plants, creating greater efficiency and lowering costs while curbing climate-changing emissions.