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The ingestible hydrogel device as a small pill can swell to a large soft sphere, and deswell to a floppy membrane.

Ingestible, expanding pill monitors the stomach for up to a month

Soft, squishy device could potentially track ulcers, cancers, and other GI conditions over the long term.

January 30, 2019

$Experiments on ultra-thin copper-oxide ceramic superconductors performed by MIT researchers showed an unexpected disorderly, or “glassy,” arrangement of electrons, known as a “Wigner glass.” At left, “Fourier space,” or momentum space, shows the diffraction data that proved the tendency of the charge ripples to align in any direction, while the image at right displays the random placem...$

Surprising electronic disorder in a copper oxide-based ceramic

MIT researchers use resonant X-ray scattering measurements to reveal unexpected “Wigner glass” in desirable superconducting material.

January 28, 2019

Researchers from MIT and elsewhere have designed the first fully flexible, battery-free “rectenna” — a device that converts energy from Wi-Fi signals into electricity — that could be used to power flexible and wearable electronics, medical devices, and sensors for the “internet of things.”

Converting Wi-Fi signals to electricity with new 2-D materials

Device made from flexible, inexpensive materials could power large-area electronics, wearables, medical devices, and more.

January 28, 2019

This image, taken through an optical microscope, shows a cross-section of the tectorial membrane, a gelatinous structure that lies atop the tiny hairs that line the inner ear.

Mechanism helps explain the ear’s exquisite sensitivity

A critical gel-like structure in the inner ear moves according to a sound’s frequency, researchers find.

January 16, 2019

This illustration shows the 12 different forms that six-atom vacancy defects in graphene can have, as determined by the researchers. The pie chart shows the relative abundances that are predicted for each of these different forms.

Researchers catalog defects that give 2-D materials amazing properties

Theoretical analysis distinguishes observed “holes” from the huge list of hypothetically possible ones.

January 14, 2019

A microfluidic technique quickly sorts bacteria based on their capability to generate electricity.

Technique identifies electricity-producing bacteria

Microbes screened with a new microfluidic process might be used in power generation or environmental cleanup.

January 11, 2019

MIT and Arizona State University researchers have created a computer program that can translate drawings of arbitrary shapes into two-dimensional structures made of DNA.

DNA design that anyone can do

Computer program can translate a free-form 2-D drawing into a DNA structure.

January 3, 2019

A new analysis of African dust reveals the Sahara swung between green and desert conditions every 20,000 years, in sync with changes in the Earth’s tilt.

A “pacemaker” for North African climate

Study shows the Sahara swung between lush and desert conditions every 20,000 years, in sync with monsoon activity.

January 2, 2019

A new study projects that compared to today’s climate, the annual number of days in which maximum and mean temperatures exceed 86 degrees Fahrenheit in the U.S. Northeast will increase toward the middle of the century, and even more so toward the end of the century.

Modeling climate risk where it hits home

A new MIT-led study projects a dramatic increase in annual high-heat days in the U.S. Northeast by the century’s end.

December 20, 2018

Researchers found that a type of nerve cell found in the gut of the worm Caenorhabditis elegans is specialized to detect when bacteria are ingested.

Gut-brain connection signals worms to alter behavior while eating

Study may lead to a better understanding of the digestive tract’s nervous system.

December 20, 2018

A new paper co-authored by MIT economist Alexander Wolitzky re-evaluates the extent to which firms in cartels share information.

Study offers new view of how cartels work

Less data-sharing among firms can actually lead to more collusion, economists find.

December 19, 2018

Cells have evolved to produce the components of their multi-protein complexes in precise ratios.

Tracking the footprints of protein synthesis

Researchers refine a method to quantify protein production, show that the precision with which bacteria and eukaryotes tune their gene expression is remarkably similar.

December 14, 2018

MIT professors Raffaele Ferrari and John Marshall, along with colleagues from Caltech, NASA's Jet Propulsion Lab, and the Naval Postgraduate School, envision a revolution in climate modeling using data assimilation and machine learning.

New climate model to be built from the ground up

Scientists and engineers will collaborate in a new Climate Modeling Alliance to advance climate modeling and prediction.

December 12, 2018

Atoms are like small magnets, so applying a magnetic force pushes them around, here, to the left (top left). Since these atoms repel each other, they cannot move if there are no empty sites (top middle). But the atomic “magnetic needles” are still free to move, with stronger magnets (red) diffusing to the left in the image, and weaker magnets (blue) having to make room and move to the right (b...

Atoms stand in for electrons in system for probing high-temperature superconductors

Using new “quantum emulator,” physicists can observe individual atoms moving through these materials, and measure their speed.

December 6, 2018

The twin detectors of LIGO, the Laser Interferometer Gravitational-wave Observatory, are located in Louisiana and Washington. The Livingston detector site, located near Livingston, Louisiana, is pictured here.

LIGO and Virgo announce four new gravitational-wave detections

The observatories are also releasing their first catalog of gravitational-wave events.

December 3, 2018