ETRI announced the development of a fluorosulfate-based flame retardant additive with greatly improved flame retardant properties, electrochemical stability, and cell performance when compared to triphenyl phosphate (TPP), a phosphorous flame retardant commonly known as a traditional flame retardant (not yet commercialized).
Incorporating interconnected mesopores and macropores into microporous zeolites with rationalized pore size at each level is an effective approach for overcoming diffusion limitations, but it remains extremely difficult due to a lack of rational design principles.
Since the 1970s, scientists have known that copper has a special ability to transform carbon dioxide into valuable chemicals and fuels.
Scientists at Ireland’s University of Limerick found a new material that can “trap and store” volatile gases.
Society's growing demand for high-voltage electrical technologies – including pulsed power systems, cars and electrified aircraft, and renewable energy applications – requires a new generation of capacitors that store and deliver large amounts of energy under intense thermal and electrical conditions.
One of the most effective methods for addressing climate change is CO2 hydrogenation, which combines green hydrogen with CO2 to solve three complex issues: high CO2 levels, the temporal mismatch between solar power production and demand, and hydrogen gas storage.
N-heterocyclic compounds are the predominant active ingredients of several medicines and serve as crucial building blocks for the development of new organic materials for the energy transition.
Using a home-built time-of-flight mass spectrometer (TOFMS), a research team led by Prof. Haiyang Li from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS) has discovered a new competition mechanism in vacuum ultraviolet photoionization of dichloromethane that is useful for studying the stratospheric ozone depletion mechanism and photodegradation of harmful haloalkanes.
"Every act of creation," Picasso famously noted, "is first an act of destruction."
The cathodic CO2 reduction reaction’s (CO2RR) byproducts are typically in reduced forms in a conventional electrochemical cell with a membrane separator. The anodic O2 development has no bearing on the ongoing expansion of the product range.
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