Novel 3D-printed device demonstrates enhanced capture of carbon dioxide emissions
Credit: Carlos Jones/Oak Ridge National Laboratory, U.S. Dept. of Energy The Department of Energy's Oak Ridge National Laboratory researchers have ...
Credit: Carlos Jones/Oak Ridge National Laboratory, U.S. Dept. of Energy The Department of Energy's Oak Ridge National Laboratory researchers have ...
Credit: University of Cambridge Researchers have developed a standalone device that converts sunlight, carbon dioxide and water into a carbon-neutral ...
The ATES iQ project aims to demonstrate whether the carbonate rocks 500 meters below Berlin are suitable for heating buildingsCredit: ...
Credit: Tohoku University Tin monosulfide (SnS) is a promising material used for next generation solar cells because of its nontoxic ...
Scientists at Okayama University use a new technique to reveal how dendrites form in rechargeable batteriesCredit: Reproduced from the inside-front ...
Student co-authors paper on discovery in nanocrystalsCredit: College of Science CLEMSON, South Carolina - Three teams of researchers at Clemson ...
By introducing defects to a common material, Berkeley Lab researchers create a highly efficient capacitor with dramatically increased energy densityCredit: ...
Brazilian researchers used genetic engineering to develop a low-cost platform for the production of enzymes that break down sugarcane trash ...
Investigating the impact of temperature on solar and wind energy production in AustraliaCredit: Jing Huang WASHINGTON, August 18, 2020 -- ...
Scientists at Osaka University demonstrate a simple method for inserting high-energy cubane molecules into an existing single-crystal supramolecular framework, work ...
The new design allows not only to reduce the cost of experiments, but also increases the power of vanadium batteriesCredit: ...
Credit: Feng Ke Atomically thin diamond, also called diamane, is a two-dimensional carbon allotrope and has attracted considerable scientific interest ...
Credit: 2020 American Chemical Society Scientists at Tokyo Institute of Technology (Tokyo Tech) explore how nitrogen vacancies in catalysts participate ...
Credit: Surinder Chopra, Penn State Flavonoid compounds -- produced by the roots of some sorghum plants -- positively affect soil ...
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