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Categories: Engineering: Graphene, Geoscience: Severe Weather

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Geoscience: Severe Weather
Published

Skiing over Christmas holidays no longer guaranteed -- even with snow guns      (via sciencedaily.com)     Original source 

For many people, holidays in the snow are as much a part of the end of the year as Christmas trees and fireworks. As global warming progresses, however, white slopes are becoming increasingly rare. Researchers have calculated how well one of Switzerland's largest ski resorts will remain snow reliable with technical snow-making by the year 2100, and how much water this snow will consume.

Energy: Alternative Fuels Geoscience: Geology Geoscience: Geomagnetic Storms Geoscience: Severe Weather
Published

New study models the transmission of foreshock waves towards Earth      (via sciencedaily.com) 

As the supersonic solar wind surges towards Earth, its interaction with our planet's magnetic field creates a shock to deflect its flow, and a foreshock filled with electromagnetic waves. How these waves can propagate to the other side of the shock has long remained a mystery.

Engineering: Graphene
Published

At the edge of graphene-based electronics      (via sciencedaily.com) 

Researchers developed a new graphene-based nanoelectronics platform compatible with conventional microelectronics manufacturing, paving the way for a successor to silicon.

Engineering: Graphene
Published

Lucky find! How science behind epidemics helped physicists to develop state-of-the-art conductive paint      (via sciencedaily.com) 

Scientists demonstrate how a highly conductive paint coating that they have developed mimics the network spread of a virus through a process called 'explosive percolation' -- a mathematical process which can also be applied to population growth, financial systems and computer networks, but which has not been seen before in materials systems. The finding was a serendipitous development as well as a scientific first for the researchers.

Chemistry: Thermodynamics Engineering: Graphene
Published

A shield for 2D materials that adds vibrations to reduce vibration problems      (via sciencedaily.com) 

A new study demonstrates a new, counterintuitive way to protect atomically-thin electronics -- adding vibrations, to reduce vibrations. By squeezing a liquid-metal gallium droplet, graphene devices are painted with a protective coating of gallium-oxide that can cover millimeter-wide scales, making it potentially applicable for industrial large-scale fabrication. The new technique improves device performance as well as protecting 2D materials from thermal vibration in neighboring materials.

Engineering: Graphene
Published

Nanomaterial influences gut microbiome and immune system interactions      (via sciencedaily.com) 

The nanomaterial graphene oxide -- which is used in everything from electronics to sensors for biomolecules -- can indirectly affect the immune system via the gut microbiome, as shown in a new study on zebrafish.

Energy: Batteries Engineering: Graphene
Published

New life flashed into lithium-ion anodes      (via sciencedaily.com) 

Chemists use flash Joule heating to recover graphite anodes from spent lithium-ion batteries at a cost of about $118 per ton.

Engineering: Graphene
Published

New way to produce important molecular entity      (via sciencedaily.com) 

A team presents a new, direct way to produce unsymmetrically constructed vicinal diamines. These structures are relevant for the function of biologically active molecules, natural products and pharmaceuticals.

Engineering: Graphene
Published

Palm e-tattoo can tell when you're stressed out      (via sciencedaily.com) 

Researchers have applied emerging electronic tattoo (e-tattoo) technology to the tricky task of measuring stress levels by attaching a device to people's palms.

Engineering: Graphene
Published

New carbon nanotube-based foam promises superior protection against concussions      (via sciencedaily.com) 

A lightweight, ultra-shock-absorbing foam made from carbon nanotubes is so good at absorbing and dissipating the energy of an impact, it could vastly improve helmets and prevent concussions and other traumatic brain injuries.

Engineering: Graphene
Published

Asphaltene changed into graphene for composites      (via sciencedaily.com) 

The flash Joule heating process turns asphaltenes, a byproduct of crude oil production, into graphene for use in composite materials.

Engineering: Graphene
Published

Researchers learn to engineer growth of crystalline materials consisting of nanometer-size gold clusters      (via sciencedaily.com) 

First insights into engineering crystal growth by atomically precise metal nanoclusters have been achieved in a new study.

Engineering: Graphene
Published

Growing pure nanotubes is a stretch, but possible      (via sciencedaily.com) 

Researchers have published a new theory for making batches of carbon nanotubes with a single, desired chirality. Their method could simplify purification of nanotubes that are all metallic or all semiconductors.

Engineering: Graphene
Published

New study introduces the best graphite films      (via sciencedaily.com) 

A recent study has proposed a strategy to synthesize single-crystalline graphite films orders of magnitude large, up to inch scale.

Engineering: Graphene
Published

Discovery of a fundamental law of friction leads to new materials that can minimize energy loss      (via sciencedaily.com) 

Chemists and engineers have discovered a fundamental friction law that is leading to a deeper understanding of energy dissipation in friction and the design of two-dimensional materials capable of minimizing energy loss.

Engineering: Graphene
Published

In nanotube science, is boron nitride the new carbon?      (via sciencedaily.com) 

Engineers synthesized aligned forests of nanoscale fibers made of boron nitride, or 'white graphene.' They hope to harness the technique to fabricate bulk-scale arrays of these nanotubes, which can then be combined with other materials to make stronger, more heat-resistant composites, for instance to shield space structures and hypersonic aircraft.

Engineering: Graphene
Published

Trapping polaritons in an engineered quantum box      (via sciencedaily.com) 

Researchers have engineered a quantum box for polaritons in a 2D material, achieving large polariton densities and a partially 'coherent' quantum state. New insights from the novel technique could allow researchers to access striking 'collective' quantum phenomena in this material family, and enable ultra-energy efficient and high-performance future technologies. Laying a 'small' 2D material on top of a 'large' layer allowed the researchers to trap and investigate polaritons, comparing them with freely moving polaritons.

Geoscience: Severe Weather
Published

Warming oceans likely to shrink the viable habitat of many marine animals -- but not all      (via sciencedaily.com) 

A new article adds a new chapter to the story of how some animals may respond to the warming oceans.

Engineering: Graphene
Published

Upgrading your computer to quantum      (via sciencedaily.com) 

Researchers have demonstrated how a nanoscale layer of superconducting niobium nitride (NbNx) can be grown directly onto aluminum nitride (AIN). The arrangement of atoms, nitrogen content, and electrical conductivity were found to depend on growth conditions, particularly temperature, and the spacing of atoms in the two materials was sufficiently compatible to produce flat layers. The structural similarity between NbNx and AIN will facilitate the integration of superconductors into semiconductor optoelectronic devices.

Energy: Alternative Fuels Engineering: Graphene
Published

Novel carrier doping in p-type semiconductors enhances photovoltaic device performance by increasing hole concentration      (via sciencedaily.com) 

The carrier concentration and conductivity in p-type monovalent copper semiconductors can be significantly enhanced by adding alkali metal impurities. Doping with isovalent and larger-sized alkali metal ions effectively increased the free charge carrier concentration, and the mechanism was unraveled by their theoretical calculations. Their carrier doping technology enables high carrier concentration and high mobility p-type thin films to be prepared from the solution process, with photovoltaic device applications.