Custom, 3D-printed heart replicas look and pump just like the real thing
The soft robotic models are patient-specific and could help clinicians zero in on the best implant for an individual.
A new chip for decoding data transmissions demonstrates record-breaking energy efficiency
The chip, which can decipher any encoded signal, could enable lower-cost devices that perform better while requiring less hardware.
Study: Carbon-neutral pavements are possible by 2050, but rapid policy and industry action are needed
Analyses show stakeholders of all levels must get involved in decarbonizing pavements to reach climate goals.
Studies of unusual brains reveal critical insights into brain organization, function
Ev Fedorenko’s Interesting Brains Project highlights the human brain’s remarkable capacity to adapt, reorganize in the face of early damage.
A more sustainable way to generate phosphorus
MIT chemists found a way to cut the carbon footprint of producing white phosphorus, an ingredient in many consumer products.
New chip for mobile devices knocks out unwanted signals
The receiver chip efficiently blocks signal interference that slows device performance and drains batteries.
A new way for quantum computing systems to keep their cool
A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.
Improving the speed and safety of airport security screening
Lincoln Laboratory seeks ways to build non-contact screening methods that can detect concealed explosives at airports.
Using combustion to make better batteries
An MIT team is working to harness combustion to yield valuable materials, including some that are critical in the manufacture of lithium-ion batteries.
How to pull carbon dioxide out of seawater
A new method for removing the greenhouse gas from the ocean could be far more efficient than existing systems for removing it from the air.
Engineers discover a new way to control atomic nuclei as “qubits”
Using lasers, researchers can directly control a property of nuclei called spin, that can encode quantum information.
Ingestible sensor could help doctors pinpoint GI difficulties
The sensor sends out its location as it moves through the GI tract, revealing where slowdowns in digestion may occur.
Efficient technique improves machine-learning models’ reliability
The method enables a model to determine its confidence in a prediction, while using no additional data and far fewer computing resources than other methods.
Scientists boost quantum signals while reducing noise
“Squeezing” noise over a broad frequency bandwidth in a quantum system could lead to faster and more accurate quantum measurements.