Computational modeling guides development of new materials
Chemical engineers use neural networks to discover the properties of metal-organic frameworks, for catalysis and other applications.
Chemical engineers use neural networks to discover the properties of metal-organic frameworks, for catalysis and other applications.
Changes to a key ice flow equation could refine estimates of sea level rise.
MIT chemical engineers create affordable, sustainable soap-based system to eliminate emerging micropollutants in water.
New research provides insights into how quantum mechanics can control ultracold chemistry.
A method for stabilizing the interfaces in solid-state lithium-ion batteries opens new possibilities.
New effort empowers MIT researchers to shape real estate’s future and build responsibly and sustainably.
An MIT study identifies ways that lawyers could make their written documents easier for the average person to read.
The computer-vision technique behind these maps could help avoid contrail production, reducing aviation’s climate impact.
Faculty leaders discuss the opportunities and obstacles in developing, scaling, and implementing their work rapidly.
Novel lysin Abp013 has shown promising antimicrobial ability against Acinetobacter baumannii and Klebsiella pneumoniae.
Online MICRO internship program brings remote opportunities to undergrads.
A new MIT-wide effort launched by the Institute for Data, Systems, and Society uses social science and computation to address systemic racism.
Tracing connections between neuron populations could help researchers map brain circuits that underlie behavior and perception.
Theories from cognitive science and psychology could help humans learn to collaborate with robots faster and more effectively, scientists find.
Researchers find similarities between how some computer-vision systems process images and how humans see out of the corners of our eyes.