News by Subject Technology & Engineering

News Release 14-Aug-2019

A miniature stretchable pump for the next generation of soft robots

Ecole Polytechnique Fédérale de Lausanne

Scientists at EPFL have developed a tiny pump that could play a big role in the development of autonomous soft robots, lightweight exoskeletons and smart clothing. Flexible, silent and weighing only one gram, it is poised to replace the rigid, noisy and bulky pumps currently used. The scientists' work has just been published in Nature.

Journal: Nature
Funder: JSPS KAKENHI; MEXT/JSPS, Leading Initiative for Excellent Young Researchers, Swiss National Science Foundation, NCCR Robotics, Japanese TOBITATE! Young Ambassador Program, Hasler Foundation Cyber-Human Systems program

News Release 8-Aug-2019

This designer clothing lets users turn on electronics while turning away bacteria

Purdue University

Purdue University researchers have developed a new fabric innovation that allows the wearer to control electronic devices through the clothing.

Journal: Advanced Functional Materials

News Release 6-Aug-2019

'Weaponized interdependence' wields economic networks as political weapons

The MIT Press

Recent incidents make clear that we are in a new era in which one nation's economic interdependence on another can be wielded as a political weapon -- a phenomenon described as 'weaponized interdependence' by Henry Farrell (George Washington University) and Abraham L. Newman (Georgetown University) in a new article in International Security.

Journal: International Security

News Release 5-Aug-2019

Spacer protects healthy organs from radiation exposure during particle therapy

Kobe University

Kobe University and Alfresa Pharma Corporation develop a novel medical device with non-woven fabric style made of bioabsorbable material.

Journal: Advances in Radiation Oncology

News Release 26-Jul-2019

Shaping light with a smartlens

ICFO-The Institute of Photonic Sciences

A team of researchers reports on a dynamically tuneable lens capable of achieving almost any complex optical function.

Journal: Nature Photonics

News Release 25-Jul-2019

Transforming biology to design next-generation computers, using a surprise ingredient

Purdue University

A Purdue University group has found ways of transforming structures that occur naturally in cell membranes to create other architectures, like parallel 1nm-wide line segments, more applicable to computing.

Journal: Chem

News Release 15-Jul-2019

The rush to air conditioning in Europe pushed by urbanization and climate change

Università Ca' Foscari Venezia

A new study published in Environmental Science and Policy shows that without adequate and focused policies, many households will rely on air conditioners to adapt to climate change, thus generating even more greenhouse gas emissions.

Journal: Environmental Science & Policy
Funder: European Research Council

News Release 12-Jul-2019

New technology improves atrial fibrillation detection after stroke

Michigan Medicine - University of Michigan

It's important to determine whether stroke patients also experience atrial fibrillation (Afib). Monitoring technology invented at Michigan Medicine (University of Michigan) could make the process easier and more accurate.

Journal: Stroke

News Release 8-Jul-2019

New anticancer agents may better control tumor growth in nearly every cancer type

Purdue University

Researchers at Purdue University have discovered a novel set of MYC promoter G-quadruplex stabilizers that have demonstrated anticancer activity in human cancer cell cultures.

Journal: Journal of the American Chemical Society
Funder: NIH/National Cancer Institute, National Institutes of Health

News Release 2-Jul-2019

Researchers cast neural nets to simulate molecular motion

DOE/Los Alamos National Laboratory

New work from Los Alamos National Laboratory, the University of North Carolina at Chapel Hill, and the University of Florida is showing that artificial neural nets can be trained to encode quantum mechanical laws to describe the motions of molecules, supercharging simulations potentially across a broad range of fields.

Journal: Nature Communications

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