Giving soft robots feeling
In a pair of papers from MIT CSAIL, two teams enable better sense and perception for soft robotic grippers.
In a pair of papers from MIT CSAIL, two teams enable better sense and perception for soft robotic grippers.
An MIT-developed technique could aid in tracking the ocean’s health and productivity.
Automated tabletop machine could accelerate the development of novel drugs to treat cancer and other diseases.
Approach for generating numbers at random may help analyses of complex systems, from Earth’s climate to financial markets.
Three MIT teams to explore novel ways to reduce operations and maintenance costs of advanced nuclear reactors.
Molecules containing heavy and deformed radioactive nuclei may help scientists to measure symmetry-violating phenomena and identify signs of dark matter.
Study: Vaccines find more success in development than any other kind of drug, but have been relatively neglected in recent decades.
Method may help quickly identify regions where objects — and missing people — may have converged.
Particle-scale phenomenon akin to the swerving of a curveball could allow selective separation of suspended nanomaterials.
Pathologists who examined the computationally stained images could not tell them apart from traditionally stained slides.
Modeling study shows battery reuse systems could be profitable for both electric vehicle companies and grid-scale solar operations.
“Gold standard” material for generating oxygen from water divulges its molecular mechanisms.
Chemical process called ELAST allows labeling probes to infuse more quickly, and makes samples tough enough for repeated handling.
Drug compound, tested in mice, could be effective in treating the leading heritable cause of intellectual disability and autism.