Most modern semiconductors are fabricated of or on silicon (Si), but as devices get smaller and denser, they dissipate more ...

A new iron-based aqueous flow battery shows promise for grid energy storage applications. A commonplace chemical used in water treatment facilities has been repurposed for large-scale energy storage ...

The newly commissioned VRFB system is part of NTPC’s ongoing efforts to develop next-generation clean-energy technologies.

Flow-style batteries are already demonstrating the potential to dramatically cut the cost of energy storage used to capture the excess output of grid-scale wind and solar plants for later use. A rapid ...

Scientists have developed a new microscope that significantly improves the way heat flow in materials can be measured. This advancement could lead to better designs for electronic devices and energy ...

Earlier this month, California-based flow battery developer Quino Energy received $10 million in investment funding from India-based Atri Energy Transition to establish production in India for its ...

High-pressure electron tunneling spectroscopy reveals the presence of a superconducting gap in H₃S and D₃S. Superconductors are special materials that allow electricity to flow without any resistance, ...

Energy density tends to be low, because only so much battery material can be dissolved in a liquid before it starts to settle at the bottom of the tank, making it useless. This low density tends to ...