Organic redox-active molecules (ORAMs) are abundant and diverse, offering significant potential for cost-effective and sustainable energy storage, particularly in aqueous organic flow batteries ...

However, designing organic compounds with strong NIR emission is challenging. The energy absorbed by these molecules is often lost as heat due to vibrations in C-H bonds.

The use of redox-active organic molecules and magnetic metal ions as molecular building blocks for materials represents a new strategy towards novel types of 2D materials exhibiting both high ...

Organic molecules exhibit a diverse range of redox properties and electronic behaviours that are integral to their function in molecular devices, energy storage and sensing applications.

Redox-active organic molecules, such as quinones, phenazines, and viologens, are being synthetically engineered to improve performance attributes like solubility, redox potential, ...

Recently, redox-active organic molecules, such as quinone- and amine-based molecules, have been used as negative electrodes in rechargeable metal-air batteries with oxygen-reducing positive ...

With Flow Battery Research Collective, researchers want to facilitate access to redox flox batteries and promote replication ...

Scientists from the Dutch Institute for Fundamental Energy Research (DIFFER) have created a database of 31,618 molecules that could potentially be used in future redox-flow batteries. These ...

Here, protons and hydroxide ions participate in the redox reactions. These batteries exhibit high performance close to the maximum capacity that is theoretically possible. Furthermore, using ...