Category Environment/Geology

Researchers developed a device that uses florescence from oil (left) to detect its presence and identify the type of oil. The small and simple device incorporates inexpensive electronic components (right). Credit: Oscar Sampedro, Universidade de Vigo.

Simple sensing device could make cleanup easier by identifying the type of oil involved in a spill. The device is designed to float on the water, where it could remotely monitor a small area susceptible to pollution or track the evolution of contamination at a particular location. “Fast detection of a spill is crucial for a quick antipollution response to avoid, as much as possible, the progressive mixture of the oil into the water, which would make cleaning more difficult and inefficient,” said Jose R...

This is a solidified lava flow over the side of a crater rim of Elysium. Credit: NASA HiRISE image, David Susko, LSU

New Mars research shows evidence of a complex mantle beneath the Elysium volcanic province. Mars’ mantle may be more complicated than previously thought. In a new study researchers at LSU found that the unusual chemistry of lava flows around Elysium is consistent with primary magmatic processes, eg. heterogeneous mantle beneath Mars’ surface or the weight of the overlying volcanic mountain causing different layers of mantle to melt at different temperatures as they rise to the surface.

Elysium is a giant volcanic complex on Mars, the second largest behind Olympic Mons. For scale, it rises to twice the height of Earth’s Mount Everest, or ~16 kilometers...

Geoffrey Coates, center, in his lab with James Eagan, a postdoctoral researcher in Coates’ group and researcher Anne LaPointe. Credit: Robert Barker/University Photography

When Geoffrey Coates, Tisch University Professor of Chemistry and Chemical Biology, gives a talk about plastics and recycling, he usually opens with this question: What percentage of the 78 million tons of plastic used annually for packaging – for example, a 2-liter bottle or a take-out food container – actually gets recycled and reused in a similar way? The answer is just 2%. Sadly, nearly a third is leaked into the environment, around 14% is used in incineration and/or energy recovery, and a whopping 40% winds up in landfills.

One of the problems: Polyethylene (PE) and polypropylene (PP), 2/3 of the world’s plastic...

Production process from silicon sawdust to lithium battery anode.

Researchers have created a high performance anode material for lithium-ion batteries (LIBs) using waste silicon (Si) sawdust. It is energy-consuming and expensive to produce Si wafers with high purity (> 99.99%). On top of that, some 50% of Si is actually discarded as industrial waste in the final cutting process. This waste is about 90,000 tons a year worldwide, an amount large enough to meet the global demands for anode materials for LIBs.

To make this happen, under the project of “Dynamic Alliance for Open Innovation Bridging Human, Environment and Materials,” a joint research team from Tohoku University and Osaka University has developed a practical and mass-producible method of recycling the unwanted Si sawdust into a h...