Menu

A new generative AI approach to predicting chemical reactions

June 6, 2026

MIT chemists use MGHPCC computers to design impact-resistant plastics.

The MIT SuperCloud and Lincoln Laboratory Supercomputing Center provided HPC resources for the researchers’ results.

Read this story at MIT News

Story image: MIT chemists showed they can double the strength of common polymers, including polystyrene and a type of rubber used to make shoe soles.
Credits: MIT News; iStock

Related Publication:

Sang, Z., Nguyen, S.T., Ko, K. et al. (2026), Mechanophore cross-linking enhances ballistic energy dissipation of polymers, Nature, doi: 10.1038/s41586-026-10557-w

Tags:
Previous Post:
Next Post:

Research projects

The US ATLAS Northeast Tier 2 Center
Yale Budget Lab
Volcanic Eruptions Impact on Stratospheric Chemistry & Ozone
Towards a Whole Brain Cellular Atlas
Tornado Path Detection
The Kempner Institute - Unlocking Intelligence
The Institute for Experiential AI
Taming the Energy Appetite of AI Models
All Research Projects

Collaborative projects

ALL Collaborative PROJECTS

OUTREACH & EDUCATION PROJECTS

See ALL Scholarships
100 Bigelow Street, Holyoke, MA 01040