Science

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Rice researchers demo solar water-splitting technology: Process uses light-harvesting nanoparticles, captures energy from 'hot electrons'

Rice University researchers have demonstrated an efficient new way to capture the energy from sunlight and convert it into clean, renewable energy by splitting water molecules.

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Rice University researchers have demonstrated an efficient new way to capture the energy from sunlight and convert it into clean, renewable energy by splitting water molecules.

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Nanoporous gold sponge makes DNA detector: Possible new rapid tests for human, animal, plant pathogens

Sponge-like nanoporous gold could be key to new devices to detect disease-causing agents in humans and plants, according to UC Davis researchers.

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Nanoporous gold contains tiny pores that can filter DNA from other biomolecules. The material can be used to make DNA detection devices for use in diagnostics.

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New nanomaterial maintains conductivity in three dimensions: International team seamlessly bonds CNTs and graphene

An international team of scientists has developed what may be the first one-step process for making seamless carbon-based nanomaterials that possess superior thermal, electrical and mechanical properties in three dimensions.

The research holds potential for increased energy storage in high efficiency batteries and supercapacitors, increasing the efficiency of energy conversion in solar cells, for lightweight thermal coatings and more. The study is published on Sept. 4 in the online journal Science Advances.

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Fortifying Computer Chips for Space Travel

Berkeley Lab's particle accelerator blasts microprocessors with high-energy beams to toughen them up.

Space is cold, dark, and lonely. Deadly, too, if any one of a million things goes wrong on your spaceship. It’s certainly no place for a computer chip to fail, which can happen due to the abundance of radiation bombarding a craft. Worse, ever-shrinking components on microprocessors make computers more prone to damage from high-energy radiation like protons from the sun or cosmic rays from beyond our galaxy.

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Making nanowires from protein and DNA

The ability to custom design biological materials such as protein and DNA opens up technological possibilities that were unimaginable just a few decades ago. For example, synthetic structures made of DNA could one day be used to deliver cancer drugs directly to tumor cells, and customized proteins could be designed to specifically attack a certain kind of virus. Although researchers have already made such structures out of DNA or protein alone, a Caltech team recently created--for the first time--a synthetic structure made of both protein and DNA. Combining the two molecule types into one biomaterial opens the door to numerous applications.

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Making fuel from light: Argonne research sheds light on photosynthesis and creation of solar fuel

Refined by nature over a billion years, photosynthesis has given life to the planet, providing an environment suitable for the smallest, most primitive organism all the way to our own species.

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A marine creature's magic trick explained: Crystal structures on the sea sapphire's back appear differently depending on the angle of reflection

Tiny ocean creatures known as sea sapphires perform a sort of magic trick as they swim: One second they appear in splendid iridescent shades of blue, purple or green, and the next they may turn invisible (at least the blue ones turn completely transparent). How do they get their bright colors and what enables them to "disappear?" New research at the Weizmann Institute has solved the mystery of these colorful, vanishing creatures, which are known scientifically as Sapphirinidae. The findings, could inspire the development of new optical technologies.

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Tiny sea sapphires' iridescence, created by a regular array of thin transparent crystal plates, is also the secret of their "disappearance."

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Waste coffee used as fuel storage: Scientists have developed a simple process to treat waste coffee grounds to allow them to store methane

Scientists have developed a simple process to treat waste coffee grounds to allow them to store methane. The simple soak and heating process develops a carbon capture material with the additional environmental benefits of recycling a waste product.

Methane capture and storage provides a double environmental return - it removes a harmful greenhouse gas from the atmosphere that can then be used as a fuel that is cleaner than other fossil fuels.

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New, Ultrathin Optical Devices Shape Light in Exotic Ways

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This schematic drawing shows how a "metasurface" can generate and focus radially polarized light.

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An engineered surface unsticks sticky water droplets

The leaves of the lotus flower, and other natural surfaces that repel water and dirt, have been the model for many types of engineered liquid-repelling surfaces. As slippery as these surfaces are, however, tiny water droplets still stick to them. Now, Penn State researchers have developed nano/micro-textured, highly slippery surfaces able to outperform these naturally inspired coatings, particularly when the water is a vapor or tiny droplets.

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In conventional superhydrophobic rough surfaces, tiny liquid droplets in the Wenzel state will remain pinned to the surface textures. In contrast, the new slippery rough surface enables high mobility for Wenzel droplets.