A team of researchers from Yale-NUS College, in collaboration with scientists in Sweden, has found that bisulphate species in the exhaust stream are strongly connected to decreasing the effectiveness of exhaust remediation catalysts in diesel engines.
Lithium ion batteries have already become an integral part of our everyday life. However, our energy-hungry society demands longer life, faster charging, and lighter batteries for a variety of applications from electric vehicles to portable electronics, including lightening the load a soldier carries as numerous electronics become adopted by the Army.
Many materials that we use every day are not sustainable. Some are harmful to plants or animals, others contain rare elements that will not always be as readily available as they are today. A great hope for the future is to achieve different material properties by using novel organic molecules.
Noble metals (e.g., platinum) are often used as catalysts in the oxygen reduction reaction (ORR) of fuel cell cathodes.
Acyl fluorides are organic compounds that contain a fluorine atom in their structure. These compounds have recently gained much attention in transition-metal catalysis due to their stability and selective reactivity.
Electrocatalysis is one of the most studied topics in the field of material science, because it is extensively involved in many important energy-related processes, such as the oxygen reduction reaction (ORR) for fuel cells, the hydrogen evolution reaction (HER) for green hydrogen production, and the oxygen evolution reaction (OER) for metal-air batteries.
Materials that integrate quantum magnetism and topological electronic properties have presently attracted a great deal of interest, specifically for the quantum many-body physics that are likely to unfold in them and also for potential applications in electronic components.
One of the most extensively researched topics in the area of material science is electrocatalysis because this process is largely involved in several major energy-associated processes, for example, the hydrogen evolution reaction (HER) for the production of green hydrogen, the oxygen reduction reaction (ORR) for fuel cells, and the oxygen evolution reaction (OER) for metal-air batteries.
When supercomputers are used to design novel drugs and electronic devices work on a nanoscale, it becomes highly significant for researchers to interpret the behavior of adjacent molecules toward one another.
Designed for chemists undertaking parallel syntheses the Asynt DrySyn 3-Position Clamp enables secure clamping of up to three round bottom flasks or condensers to a standard boss head.
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