Science

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FAMILY STATEMENT REGARDING THE DEATH OF NEIL ARMSTRONG

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Spiral Galaxy NGC 4038 in Collision

This galaxy is having a bad millennium.

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Joining the Un-Joinable: New polymer linking technology based on nano crystals developed in Kiel

Ever tried to paint on top of silicone? After a few hours, the paint will peel off. Annoying. Silicone is a so-called low surface energy polymer, well known from flexible baking forms: A synthetic material that has an extremely low adhesion or "stickiness". Teflon is similarly non-sticky and well known from frying pans. Researchers of Kiel University (Germany) have now developed the first technology which is capable of joining these two "unjoinable" materials. The technology applies passive nano-scaled crystal linkers as internal staples. The nano staples open up solutions to a large number of technical challenges, for example in medical engineering.

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The two polymer layers are stapled from the inside using nano crystals made of zink oxide. Conceptional drawing.

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The Laser Beam as a “3D Painter”

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IBN Develops Superior Fuel Cell Material: This technology can be used to power airplanes, vehicles and electronic devices

Using a mixture of gold, copper and platinum nanoparticles, IBN researchers have developed a more powerful and longer lasting fuel cell material. This breakthrough was published recently in leading journal, Energy and Environmental Science.

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Using a mixture of gold, copper and platinum nanoparticles, IBN researchers have developed a more powerful and longer lasting fuel cell material. This breakthrough was published recently in leading journal, Energy and Environmental Science.

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Flat lens offers a perfect image: Ultrathin wafer of silicon and gold focuses telecom wavelengths without distortion

Applied physicists at the Harvard School of Engineering and Applied Sciences (SEAS) have created an ultrathin, flat lens that focuses light without imparting the distortions of conventional lenses.

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Applied physicists at the Harvard School of Engineering and Applied Sciences (SEAS) have created an ultrathin, flat lens that focuses light without imparting the distortions of conventional lenses.

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One-molecule-thick material has big advantages: MIT researchers produce complex electronic circuits from molybdenum disulfide, a material that could have many more applications

The discovery of graphene, a material just one atom thick and possessing exceptional strength and other novel properties, started an avalanche of research around its use for everything from electronics to optics to structural materials. But new research suggests that was just the beginning: A whole family of two-dimensional materials may open up even broader possibilities for applications that could change many aspects of modern life.

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Diagram shows the flat-sheet structure of the material used by the MIT team, molybdenum disulfide. Molybdenum atoms are shown in teal, and sulfur atoms in yellow.

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Novel technique to synthesize nanocrystals that harvest solar energy

One reason that solar energy has not been widely adopted is because light absorbing materials are not durable. Materials that harvest solar radiation for energy often overheat or degrade over time; this reduces their viability to compete with other renewable energy sources like wind or hydroelectric generators.

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This is a schematic of the photocatalytic nanocrystal.

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NASA Mars Rover Begins Driving at Bradbury Landing

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Zapping Rocks Exposed by the Sky Crane's Thrusters
This photo mosaic shows the scour mark, dubbed Goulburn, left by the thrusters on the sky crane that helped lower NASA's Curiosity rover to the Red Planet. It is located 16 to 20 feet (5 to 6 meters) to the left of the rover's landing position. The sky crane appears to have uncovered an outcrop of loosely consolidated rocks during the rover's landing.

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Super-Strong, High-Tech Material Found to be Toxic to Aquatic Animals by Researchers at MU and USGS: Carbon nanotubes hold promise for industry but need monitoring, say researchers

Carbon nanotubes (CNTs) are some of the strongest materials on Earth and are used to strengthen composite materials, such as those used in high-performance tennis rackets. CNTs have potential uses in everything from medicine to electronics to construction. However, CNTs are not without risks. A joint study by the University of Missouri and United States Geological Survey found that they can be toxic to aquatic animals. The researchers urge that care be taken to prevent the release of CNTs into the environment as the materials enter mass production.

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Multi-walled carbon nanotubes. 3-15 walls, mean inner diameter 4nm, mean outer diameter 13-16 nm, length 1-10+ micrometers. Black clumpy powder, grains shown, partially smeared on paper. Scale in centimeters.