New cathode design and
understanding of electrolyte delivers greater efficiency in magnesium - ion batteries
«To predict and optimize the performance of these devices, a detailed
understanding of the electrolytes, particularly their electronic...
Not exact matches
A basic
understanding of the fluid balance
of the body, the
electrolyte balance in the body and the pH balance in the body.
In a new study published in Nature Catalysis, a team at the U.S. Department
of Energy's (DOE) Argonne National Laboratory reports a breakthrough in
understanding the chemistry
of the microscopically thin layer that forms at the interface between the liquid
electrolyte and solid electrode.
«We are combining a nanostructured cathode and a new
understanding of the magnesium
electrolyte,» said Yan Yao, associate professor
of electrical and computer engineering at the University
of Houston and lead author on the paper.
«Breakthrough in magnesium batteries: Nanostructured cathode,
understanding of new
electrolyte lead to greater efficiency.»
By
understanding how individual properties
of ions inform their collective behavior, scientists can determine how to tailor the concentration and type
of electrolyte for specific applications.
The next step is to
understand how long these intense fields last in aqueous
electrolytes, determine what types
of molecular configurations are needed to create these long - lasting fields, and quantify the distribution
of energy gaps between the various excited electronic states.
For example, the research provided a theoretical foundation for
understanding and engineering the electronic properties
of liquid
electrolytes in PEC cells for hydrogen production and ionic liquid for batteries.
«The proposed computational framework is general and applicable to non-metallic liquids, offering great promise in
understanding and engineering solutions and liquid
electrolytes for a variety
of important energy technologies,» Pham said.
My
understanding is that the impact on insulin is minimal with bone broth with the added advantage
of minerals and
electrolytes.
«Through our
understanding of that interface, we were able to design an additive that you add into the
electrolyte that is somewhat
of a sacrificial agent.