A key mystery about the gas comprising most of our atmosphere is closer to being solved following a discovery by University of California, Irvine biologists.
A team led by Prof. DU Jiangfeng, Prof. SHI Fazhan and Prof. WANG Ya from University of Science and Technology of China of the Chinese Academy of Sciences proposed a robust electrometric method utilizing continuous dynamic decoupling technique, where the continuous driving fields provide a magnetic-field-resistant dressed frame.
They say it's better to have had something special and lost it than to have never had it at all. Who would have thought that sentiment holds true for metal oxide catalysts.
Project lead Ayrat Dimiev has been working on this topic since 2012, when he was a part of Professor James Tour's group at Rice University.
An emerging hydrogel material with the capacity to degrade and spontaneously reform in the gastrointestinal tract could help researchers develop more effective methods for oral drug delivery.
Multicolour electrochromic displays are one of the most versatile applications because they can retain their coloured states without the need to supply electrical power. However, the simultaneous colouration of the counter layer when operating a conventional electrochromic display restricts the colour overlay effects.
New research shows that one of the heaviest known elements can be manipulated to a greater degree than previously thought, potentially paving the way for new strategies to recycle nuclear fuel and better long-term storage of radioactive elements.
Scientists at Tokyo Institute of Technology have developed a new catalyst for synthesizing ammonia that does not comprise rare metals. By exploring a new design concept based around nitrogen vacancies, they created an inexpensive catalyst from abundantly available elements that still achieves state-of-the-art performance.
The Navy's quest to power its ships by converting seawater into fuel is one step nearer fruition. University of Rochester chemical engineers, in collaboration with the Naval Research Laboratory, the University of Pittsburgh, and OxEon Energy, have demonstrated that a potassium-promoted molybdenum carbide catalyst efficiently and reliably converts carbon dioxide to carbon monoxide, a critical step in the process.
Scientists have developed a new method of observing chemical reactions in metal containers. For this purpose they use NMR spectroscopy, but with an unusual twist: There is no magnetic field.
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