In a paper published in Chemical Science, an open access journal of the Royal Society of Chemistry, researchers in the lab of Ellen Matson, assistant professor of chemistry, describe modifying a metal - oxide cluster, which has promising electroactive properties, so that it is nearly twice as effective as the unmodified cluster
for electrochemical energy storage in a redox flow battery.
Unemoto, A., Matsuo, M. & Orimo, S. Complex hydrides
for electrochemical energy storage.
Nitrogen - doped mesoporous carbon of extraordinary capacitance
for electrochemical energy storage
Nanostructured materials have shown extraordinary promise
for electrochemical energy storage, but these materials are usually limited to laboratory cells with ultrathin electrodes and very low mass loadings.
Not exact matches
Lithium - ion batteries are approaching fundamental
electrochemical limits on the density of
energy they can store, while their cost is nearing its floor, too — something particularly problematic
for larger - scale applications.
At present, Loh's research interest cover
electrochemical energy conversions, biological treatment of industrial effluents, bioremediation of soil and oily sludges, and bioreactor design
for wastewater treatment.
«We demonstrated
for the first time that ceramics could help advance thermophotovoltaics as well other areas of research, including
energy harvesting from waste heat, high - temperature catalysis and
electrochemical energy storage.»
The cost advantages of thermal storage over
electrochemical storage also make a TPV with thermal
energy storage (TES) system attractive
for converting and storing
energy for use on the grid, said Hamid Reza Seyf, a graduate research assistant who did the system modeling.
Results: In an unprecedented find, a research team including scientists from Pacific Northwest National Laboratory discovered that the three electronic and
electrochemical properties having to do with the
energy necessary
for electrons and molecules to assemble or break apart are not always correlated.
Reaction mechanisms
for the
electrochemical reduction of CO2 on the Cu (100) surface from quantum mechanics free
energy calculations with explicit water.
The innovative aspect of this activity was the notion that the concept of macroscopic devices could be extended to the molecular level, and that it was possible to design supramolecular systems that, upon stimulation with external
energy stimuli such as UV / Visible light, are capable of performing a variety of specific functions: (i) systems
for information processing (e.g., wires, switches, antennas, plug / socket systems, extension cables, memories, logic gates, encoder / decoder, rudimentary neuron - like systems), (ii) devices that when powered by chemical
energy or
electrochemical energy or by light exhibit machine - like behavior (e.g., piston / cylinder systems, shuttles, lifts, rotary rings, dendritic photo - switchable boxes), and (iii) components
for artificial photosynthetic systems.
Berkeley Lab researchers, working at the Joint Center
for Artificial Photosynthesis (JCAP), have developed the first fully integrated microfluidic test - bed
for evaluating and optimizing solar - driven
electrochemical energy conversion systems.
Experienced research and development professional motivated to strategically solve difficult technical problems to advance
electrochemical and photoelectrochemical
energy conversion and storage technologies (fuel cells, supercapacitors, redox flow batteries, metal - air batteries, and photoelectrochemical cells) and deliver meaningful results
for the betterment of our society.
Implemented inorganic and
electrochemical syntheses and characterizations to develop two crucial and unconventional syntheses
for numerous renewable
energy applications in catalysis and batteries.