Large-scale deployment of intermittent renewable energy (namely wind energy and solar
PV) may entail new challenges in power systems and more volatility in power prices in …

Rechargeable redox flow batteries are being developed for medium and large-scale
stationary energy storage applications. Flow batteries could play a significant role in …

Low-grade heat from sources below 100∘ C offers a vast quantity of energy. The ability to
extract this energy, however, is limited with existing technologies as they are not well-suited …

The rapid growth of intermittent renewable energy (eg, wind and solar) demands low-cost
and large-scale energy storage systems for smooth and reliable power output, where redox …

Due to the capricious nature of renewable energy resources, such as wind and solar, large-
scale energy storage devices are increasingly required to make the best use of the …

Redox flow batteries (RFBs) are among the most investigated technologies for large-scale
energy storage applications. Since the first commercialization of all-vanadium RFB (in the …

Redox flow batteries (RFBs) have been limited by low energy density and high cost. Here,
we employ highly-soluble, inexpensive and reversible polysulfide and iodide species to …

Thermal energy was shown to be efficiently converted into electrical power in a thermally
regenerative ammonia-based battery (TRAB) using copper-based redox couples [Cu (NH3) …

Efficient and cost‐effective technologies are highly desired to convert the tremendous
amount of low‐grade waste heat to electricity. Although the thermally regenerative …

Low-grade heat (below 200° C) is available in vast quantities from industry, or from standard
roof-top solar thermal collectors. However, the production of electric power from these heat …