News by Subject Technology & Engineering

Public Release: 16-Aug-2017

Researchers clarify mystery about proposed battery material

A compound called lithium iodide (LiI) has been considered a leading material for lithium-air batteries, which could deliver more energy per pound compared to today's leading batteries. A new MIT study helps explain previous, conflicting findings about the material's usefulness for this task.

Journal: Energy & Environmental Science
Funder: Toyota Motor Europe, Skoltech Center for Electrochemical Energy Storage, National Science Foundation

Public Release: 16-Aug-2017

Computer scientists use music to covertly track body movements, activity

University of Washington

Researchers at the University of Washington have demonstrated how it is possible to transform a smart device into a surveillance tool that can collect information about the body position and movements of the user, as well as other people in the device's immediate vicinity.

Meeting: Ubicomp 2017
Funder: National Science Foundation, University of Washington, Alfred P. Sloan Foundation, Google Faculty Award

Public Release: 16-Aug-2017

Antifreeze to improve airplanes, ice cream and organ transplants

University of Warwick

The design of airplane wings and storing organs for transplant could both become safer and more effective, thanks to a synthetic antifreeze which prevents the growth of ice crystals, developed by researchers at the University of Warwick.

Journal: Journal of the American Chemical Society
Funder: National Health and Medical Research Council of Australia, Heart Foundation Postdoctoral Fellowship

Public Release: 15-Aug-2017

Archeologists uncover new economic history of ancient Rome

University of South Florida (USF Health)

University of South Florida researchers are the first to successfully excavate the Roman villa of Durreueli at Realmonte, located off the southern coast of Sicily.

Public Release: 15-Aug-2017

Now you can levitate liquids and insects at home

University of Bristol

Levitation techniques are no longer confined to the laboratory thanks to University of Bristol engineers who have developed an easier way for suspending matter in mid-air by developing a 3-D-printed acoustic levitator.

Journal: Review of Scientific Instruments

Public Release: 15-Aug-2017

Relativistic self-focusing gives mid-IR driven electrons a boost

The Optical Society

For the first time, scientists have observed the production of relativistic electrons driven by low-energy, ultrashort mid-infrared laser pulses.

Meeting: Frontiers in Optics + Laser Science APS/DLS

Public Release: 15-Aug-2017

'Organismic learning' mimics some aspects of human thought

Purdue University

A new computing technology called 'organismoids' mimics some aspects of human thought by learning how to forget unimportant memories while retaining more vital ones.

Journal: Nature Communications
Funder: Army Research Office, Air Force Office of Scientific Research, Center for Spintronic Materials, Interfaces and Novel Architecture, MARCO, Defense Advanced Research Projects Agency, Office of Naval Research, US Department of Energy

Public Release: 15-Aug-2017

Precision medicine opens the door to scientific wellness preventive approaches to suicide

Indiana University

Researchers have developed a more precise way of diagnosing suicide risk, by developing blood tests that work in everybody, as well as more personalized blood tests for different subtypes of suicidality that they have newly identified, and for different psychiatric high-risk groups. The work, led by the Indiana University School of Medicine, is reported in the journal Molecular Psychiatry.

Journal: Molecular Psychiatry
Funder: National Institutes of Health, US Department of Veterans Affairs

Public Release: 15-Aug-2017

Transporting spin: A graphene and boron nitride heterostructure creates large spin signals

Graphene Flagship

Graphene Flagship scientists based at the University of Groningen, The Netherlands, have created a device based on a blilayer of graphene and boron nitride which shows unprecedented spin transport efficiency at room temperature. Highlighting the potential of creating devices containing graphene and related materials, the spin signal measured here is so large that it can be used in real life applications such as spin based logic and transistors.

Journal: Nature Communications

Public Release: 14-Aug-2017

University of Sydney charges ahead on zinc-air batteries

University of Sydney

University of Sydney researchers have found a solution for one of the biggest stumbling blocks preventing zinc-air batteries from overtaking conventional lithium-ion batteries as the power source of choice in electronic devices.

Journal: Advanced Materials

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News by Subject Technology & Engineering

Researchers clarify mystery about proposed battery material

Computer scientists use music to covertly track body movements, activity

Antifreeze to improve airplanes, ice cream and organ transplants

Archeologists uncover new economic history of ancient Rome

Now you can levitate liquids and insects at home

Relativistic self-focusing gives mid-IR driven electrons a boost

'Organismic learning' mimics some aspects of human thought

Precision medicine opens the door to scientific wellness preventive approaches to suicide

Transporting spin: A graphene and boron nitride heterostructure creates large spin signals

University of Sydney charges ahead on zinc-air batteries

Featured Meeting

Featured Meeting

News by Subject Technology & Engineering

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