To boost emissions reductions from electric vehicles, know when to charge
MIT researchers develop novel EV emissions model to quantify importance of vehicle charging patterns and impact of ambient temperature on EV emissions levels.
MIT researchers develop novel EV emissions model to quantify importance of vehicle charging patterns and impact of ambient temperature on EV emissions levels.
Researchers show that deep reinforcement learning can be used to design more efficient nuclear reactors.
Miniaturized device activates drugs in a small region deep within the brain.
Study: Healthier women are more likely to follow age-based guidelines, leaving room for better-targeted testing.
The design, which uses entangled atoms, could help scientists detect dark matter and study gravity’s effect on time.
The findings may help researchers design “spintronic” devices and novel magnetic materials.
Family’s health trauma translates into mission to solve a chronic health problem suffered by more than a million Americans.
New study suggests waters will become more turbulent as Arctic loses summertime ice.
Neuroscientists find that interpreting code activates a general-purpose brain network, but not language-processing centers.
A new web-friendly modeling tool helps organizations build tailored Covid-19 testing strategies that can save money and reduce coronavirus spread.
A new algorithm capable of inferring goals and plans could help machines better adapt to the imperfect nature of human planning.
Unbiased, high-throughput analysis pipeline improves utility of “minibrains” for understanding development and diseases such as Zika infection.
The advance could cut production costs and reduce the size of microelectronics for sensing and communication.
A key finding: Early reopening last spring led to a dramatic drop in “quarantine strength” in southern and west-central U.S. states.
Nanoscale devices integrated into the leaves of living plants can detect the toxic heavy metal in real time.