Wednesday, 22 May 2019

Production of more than 250,000 chips embedded within fibers in less than a year

In the summer of 2018, a team led by MIT researchers reported in the journal Nature that they had successfully embedded electronic devices into fibers that could be used in fabrics or composite products like clothing, airplane wings, or even wound dressings. The advance could allow fabrics or composites to sense their environment, communicate, store and convert energy, and more.

* This article was originally published here

Researchers create most complete model of complex protein machinery

Environmental conditions, lifestyle choices, chemical exposure, and foodborne and airborne pathogens are among the external factors that can cause disease. In contrast, internal genetic factors can be responsible for the onset and progression of diseases ranging from degenerative neurological disorders to some cancers.

* This article was originally published here

Heart failure patients in UK do not receive the long-term care they need

Management of people with heart failure in the UK has shortcomings in screening, continuity of care, and medication doses, which disproportionally impact women and older people, according to a study led by Nathalie Conrad and Kazem Rahimi of The George Institute for Global Health at the University of Oxford, UK, published May 21 in PLOS Medicine. Findings suggest that screening and follow-up are sub-optimal, and these problems could be due, at least in part, to poor record-keeping in primary care and inadequate information exchange between hospitals and primary care.

* This article was originally published here

Want to eliminate workplace bias? Watch your rating system, study says

What's the difference between a 10-point and a six-point performance rating scale, besides four points?

* This article was originally published here

Dog-like robot jumps, flips and trots

Putting their own twist on robots that amble through complicated landscapes, the Stanford Student Robotics club's Extreme Mobility team has developed a four-legged robot that is not only capable of performing acrobatic tricks and traversing challenging terrain but is also designed with reproducibility in mind. Anyone who wants their own version of the robot, dubbed Stanford Doggo, can consult comprehensive plans, code and a supply list that the students have made freely available online.

* This article was originally published here
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