Faster tracking of treatment responses
Biological sensors developed by MIT spinout Glympse Bio could help clinicians make decisions for individual patients.
Biological sensors developed by MIT spinout Glympse Bio could help clinicians make decisions for individual patients.
The patch, which can be folded around surgical tools, may someday be used in robotic surgery to repair tissues and organs.
The record shows ancient temperature variations coinciding with shifts in the planet’s biodiversity.
Structure may reveal conditions needed for high-temperature superconductivity.
Findings suggest the first galaxies in the universe were more massive than previously thought.
State and Local Innovation Initiative seeks government partners to rigorously evaluate policies and programs aiming to address critical social issues.
“Organs-on-a-chip” system sheds light on how bacteria in the human digestive tract may influence neurological diseases.
Study probes pandemic’s long-term effects on the global effort to reduce greenhouse gas emissions.
Researchers created a risk-assessment algorithm that shows consistent performance across datasets from US, Europe, and Asia.
Expanding tissue samples before sequencing allows researchers to pinpoint locations of RNA molecules.
Aims to reduce carbon emissions through changes in procurement, waste tracking, airline travel, and other areas of operation.
Self-assembly of Kevlar-inspired molecules leads to structures with robust properties, offering new materials for solid-state applications.
New design could speed reaction rates in electrochemical systems for pulling carbon out of power plant emissions.
Using CRISPR technology, researchers are tracking the lineage of individual cancer cells as they proliferate and metastasize in real-time.
Study is first demonstration of a fully 3D-printed thruster using pure ion emission for propulsion.