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An Oregon State University researcher who made color history in 2009 with a vivid blue pigment has developed durable, reddish magentas inspired by lunar mineralogy and ancient Egyptian chemistry.
A group of researchers from the Oregon State University has recently published a new study illustrating how it has developed durable chromium-based reddish magenta pigments inspired by lunar mineralogy and ancient Egyptian chemistry, which can be employed during the manufacturing process of energy-efficient coatings for vehicles and buildings.
An Oregon State University researcher develops durable, reddish magentas inspired by lunar mineralogy and ancient Egyptian chemistry. The new pigments can be used as energy-efficient coatings for vehicles and buildings. The pigments are based on divalent chromium - Cr2+. “To date, no earth-based mineral has been reported to contain chromium in the divalent state as one of the components,” said Mas Subramanian, the Milton Harris professor of Materials Science in the OSU College of Science.
An Oregon State University researcher who made color history in 2009 with a vivid blue pigment has developed durable, reddish magentas inspired by lunar mineralogy and ancient Egyptian chemistry.
“This kind of a phenomenon is certainly not something that I’ve ever been aware of,” said Oregon State University marine ecologist Bruce Menge, who studies how currents shape coastal ecosystems but was not involved in the fish kill research, published today in Nature Climate Change.
Scientists at Oregon State have discovered a new prehistoric species of spider with a genius strategy for hiding from its predators. In rare cases, spiders can become trapped in various tree resins, such as amber and copal, preserving their bodies for millennia. Even more unusual is finding a fossilized spider masquerading as something else—in this case, an ant.
Oregon State University scientists studying ways to filter greenhouse gases from the air recently discovered that when molecules of the metal vanadium are bound with oxygen molecules as peroxide, they can pull carbon dioxide from the air.
A metal found in the Earth’s crust could be used to attract and remove climate-warming carbon dioxide from the atmosphere. Oregon State University scientists studying ways to filter greenhouse gases from the air recently discovered that when molecules of the metal vanadium are bound with oxygen molecules as peroxide, they can pull carbon dioxide from the air. May Nyman, the Oregon State chemistry professor who led the research, said vanadium and peroxide could be used in filters behind industrial fans to trap the carbon dioxide.
Scientists led by an Oregon State University chemistry researcher are closing in on a new tool for tackling the global problem of weedkiller-tainted groundwater.
Kyriakos Stylianou of the OSU College of Science led an international team that identified a material known as a metal-organic framework, or MOF, that showed an ability to completely remove, and also break down, the oft-used herbicide glyphosate.
A chemical element so visually striking that it was named for a goddess shows a "Goldilocks" level of reactivity - neither too much nor too little - that makes it a strong candidate as a carbon scrubbing tool.
A chemical element so visually striking it was named for a goddess shows a “Goldilocks” level of reactivity – neither too much nor too little – that makes it a strong candidate as a carbon-scrubbing tool.
A chemical element so visually striking it was named for a goddess shows a "Goldilocks" level of reactivity—neither too much nor too little—that makes it a strong candidate as a carbon scrubbing tool.
A chemical element shows a “Goldilocks” level of reactivity, neither too much nor too little, that makes it a strong candidate as a carbon scrubbing tool, Oregon State University (OSU) tells us in a media release.
An Oregon State biochemist weighs in on groundbreaking gene therapy trials for deafness treatment.
From dams to drought, salmon face a lot of threats in the West. Add thiamine deficiency to the list. New research sheds light on where salmon could get this vitamin.
From dams to drought, salmon face a lot of threats in the West. Add thiamine deficiency to the list. New research from the College of Science sheds light on where salmon could get this vitamin.
Oregon State University researchers have discovered vitamin B1 produced by microbes in rivers, findings that may offer hope for vitamin-deficient salmon populations.
Certain coral species are able to survive warming waters due to climate change because they are able to "remember" how they lived through previous heat waves, according to Oregon State University College of Science researchers.
Associate Professor in the Department of Integrative Biology, Francis Chan shares why the dungeness crab season in Oregon was delayed this year and why timing is everything when determining open season.
