Phonon catalysis could lead to a new field
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
Built at MIT Lincoln Laboratory, the RIO program automatically detects and analyzes social media accounts that spread disinformation across a network.
Study yields clues into how nitrogenase, an enzyme critical for life, converts nitrogen into ammonia.
Machine learning software advances could help anesthesiologists optimize drug dose.
Globally, people follow a “visitation law” — an inverse relationship between distance and frequency of visits.
Six new IDEAS teams receive grants to continue developing their work with communities.
Osmoses says its filtration membranes can make gas and vapor separation much less energy-intensive across multiple industries.
SMART findings allow a new way to control light emitting from materials.
Professor Markus Buehler composed it, and a South Korean orchestra performed it; it’s the latest in a series of artistic collaborations sparked by Buehler’s exploration of the structure of SARS-CoV-2.
In the U.S. and globally, cultures with a high level of collectivism tend to encourage masking during the pandemic.
Work on three graphene-based devices may yield new insights into superconductivity.
A machine learning model developed jointly by Janssen and MIT data scientists played a key role in the clinical trial process for the Johnson & Johnson Covid-19 vaccine.
New results point to unexpected, illegal production of several CFCs in recent years.
DELPHI, an artificial intelligence framework, can give an “early-alert” signal for future key technologies by learning from patterns gleaned from previous scientific publications.
Regardless of size, all black holes experience similar accretion cycles, a new study finds.