Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 10986

In 2015 UC Santa Barbara mechanical engineer and materials scientist Jonathan Berger developed an idea that could change the way people think about high-performance structural materials. Two years later, his concept is paying research dividends.

In a letter published in the journal Nature, Berger, with UCSB materials and mechanical engineering professor Robert McMeeking and materials scientist Haydn N. G. Wadley from the University of Virginia, prove that the three-dimensional pyramid-and-cross cell geometry Berger conceived is the first of its kind to achieve the performance predicted by theoretical bounds. Its lightness, strength and versatility, according to Berger, lends itself well to a variety of applications, from buildings to vehicles to packaging and transport.

Called Isomax, the beauty of this solid foam—in this case loosely defined as a combination of a stiff substance and air pockets—lay in the geometry within. Instead of the typical assemblage of bubbles or a honeycomb arrangement, the ordered cells were set apart by walls forming the shapes of pyramids with three sides and a base, and octahedra, reinforced inside with a “cross” of intersecting diagonal walls.

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Researchers at the University of Minnesota and University of Milano-Bicocca are bringing the dream of windows that can efficiently collect solar energy one step closer to reality thanks to high tech silicon nanoparticles.

The researchers developed technology to embed the nanoparticles into what they call efficient (LSCs). These LSCs are the key element of windows that can efficiently collect solar energy. When light shines through the surface, the useful frequencies of light are trapped inside and concentrated to the edges where small solar cells can be put in place to capture the energy.

The research is published today in Nature Photonics.

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Lompico is the rough jewel of Santa Cruz, California—high in the mountains and deep in the redwood forest, population 1,140. Weather providing, it takes less than an hour to get here from Silicon Valley, where technologists are hard at work designing our brave new world.

But heavy rains have made the valley barely accessible to Lompico residents like me this winter. Road closures are common in Lompico, caused by mudslides, fallen trees, and rising waters. California governor Jerry Brown requested federal disaster relief funds on Feb. 11 for this and other nearby counties, estimating damage at $162 million.

Now, just getting out of my neighborhood takes an hour. I navigate perilous one-lane trails with caravans of cars waiting their turn in either direction. Drivers back up onto cliff edges in the dark and fog to let each other by, hoping for the best. Out here, a comfortable, technologically advanced future hardly seems assured. It’s impossible to ignore the fact that our lives are still subject to the whims of nature. All it takes is a few hours of steady rain to down a dead tree and wreak havoc on an otherwise peaceful week.

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China’s State Council, the country’s chief administrative authority, recently published a White Paper on its space policies. It not only lifted a veil of secrecy that shielded Beijing’s space policies, but also outlined the country’s recent achievements and offered a five-year outlook on future activities.

Since its first satellite launch in 1970, China has become a major player in the space domain. However, it was only in 2003 that China became the third country to independently send people into space.

Beijing has placed significant resources into narrowing the capability gap that has separated it from other leading nations in this area. It took only eight years from its entry into manned spaceflight, in 2003, to the launch of the first prototype component of its space station, the Tiangong-1.

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Arsenic poisoning from drinking water is still a health concern for 137 million people in more than 70 countries around the world.

But a new filtration system created by Australian researchers could be the cheap and easy technology required to help solve this huge health issue — and best of all, it can be made using recycled parts.

Current systems for removing arsenic from ground water, such as reverse osmosis or iron exchange, aren’t cost effective or efficient, which means they’re not much use in the countries that really need them, like Vietnam and Bangladesh.

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