Imagine if a hard metal implant could be bonded to soft biological tissue without using any adhesive, then easily removed when no longer needed. That and other nifty things could soon be possible, thanks to a new understanding of electroadhesion. Source of Article
Fraunhofer scientists have used ultra-thin diamond membranes to drastically cool electronic components and boost electric vehicle charging speeds, taking advantages of diamond's outstanding thermal conductivity. Source of Article
Scraping ice off your car window might get a lot easier in the future thanks to a new spray coating developed by scientists in Austria. That's because of the way the molecules line up – or don't – during its high-tech creation process. Source of Article
Researchers have devised an economical way of reducing the environmental impact of both the steel and aluminum industries by using hydrogen to melt down the toxic red mud left over from aluminum production to produce green steel in around 10 minutes. Source of Article
Thanks to our high demand for concrete, the world may eventually run out of accessible sand. Scientists at Rice University have now shown that substituting graphene can not only save sand, but makes concrete lighter, stronger and tougher. Source of Article
Scientists believe lightweight, ultra-strong and flexible spider silk is now one step closer to commercial use thanks to a deceptively complex 'box' that can spin nature's wonder fiber in a "spontaneous, extremely rapid, and highly reproducible" way. Source of Article
A plane wing that changes shape in flight to better handle the airflow crossing it could be on the horizon thanks to a materials science advance from researchers in Stockholm. The trick involves the melting and hole-punching power of lasers. Source of Article
In an effort to mitigate human-caused climate warming, scientists are focused on ways to remove carbon dioxide from the atmosphere. One of the more novel ways to do this has just been announced by scientists employing a smart dual-method process. Source of Article
Composite metal foams (CMFs) offer big advantages over traditional solid metal. And while the welding of CMFs usually poses some challenges, it has now been been discovered that the use of an alternative type of welding works like a charm. Source of Article
Japanese scientists have developed a new type of plastic that can easily break down on demand into its base components. In seawater it starts to break down into food for marine life, and just to top it off, it can self-heal and remember past shapes. Source of Article
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