In a study published in the Chinese Journal of Catalysis, a research team led by Prof. Gang Wu (University at Buffalo, The State University of New York, United States) and Dr. Dong Tian (University of Jinan, China) developed a self-supported CNTs-Ni-Ni(OH)2 film catalyst with a 3D structure for activated HER.
Scientists at Max Planck have created an environmentally benign method that combines metal extraction, alloying, and processing into a single phase.
In a recent study published in the journal eScience, researchers from Northeastern University presented a new method for building a KF/Zn-rich hybrid interface layer on potassium metal.
While the lithium-ion battery could help save the planet, it is in some ways like any other battery: it degrades with time and operation, taking a toll on its lifespan.
According to a study published in Carbon Future on September 5th, 2024, chemists at Yale University and their colleagues have developed an electrochemical catalyst and membrane that provides an efficient and sustainable method for treating water contaminated with trichloroethylene (TCE), a common and persistent environmental pollutant.
In their quest for a more power-efficient future, researchers at Tohoku University have effectively boosted the capacity, lifespan durability, and cost-effectiveness of a capacitor, according to a study published in ACS Applied Materials & Interfaces.
The Department of Energy's Oak Ridge National Laboratory is a world leader in molten salt reactor technology development -; and its researchers additionally perform the fundamental science necessary to enable a future where nuclear energy becomes more efficient.
In a study published in Advanced Science, a research group led by Hao Li from Tohoku University’s Advanced Institute for Materials Research (WPI-AIMR) focused on the electrochemical conversion of nitrate (No3-) to ammonia (NH3), revealing a process that has the potential to revolutionize industrial practices while also providing new insights into the development of efficient and sustainable catalysis processes.
Proving a hypothesis can be exciting, but witnessing something that has never been seen before elevates that discovery into an unforgettable experience.
A lithium-ion battery's very first charge is more momentous than it sounds. It determines how well and how long the battery will work from then on – in particular, how many cycles of charging and discharging it can handle before deteriorating.
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