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A major boost for clean energy storage

Researchers from UNSW have developed a cutting-edge and scalable solution to overcome the rechargeability challenges of aqueous rechargeable zinc battery (AZB) technology.

The innovation can potentially redefine energy storage for homes and grids, emphasising safety, cost-effectiveness, extended life cycle, and robust power capability.

The team of researchers from the School of Chemical Engineering, Yuan Shang, Dr. Priyank Kumar, and Dr. Dipan Kundu, say the new technology could be a safer and cheaper alternative to lithium-ion batteries, which have been cited as the cause of a number of dangerous fires recently.

Their work, published in the Advanced Materials journal, helps to solve a major problem with the AZB technology in that the ability to recharge has so far proven to be limited due to the amount of corrosion suffered by the battery’s zinc metal electrode.

Dr Kundu and his team spent three years working on the solution, which is the introduction of a very small concentration (one volume per cent) of non-toxic additive molecules in the battery electrolyte, which addresses the corrosion issue and effectively reduces the dendritic zinc deposits that otherwise short-circuit the battery cell.

This innovative solution preserves the aqueous nature of the electrolyte, maintaining cost and safety benefits.

The outcome is a 5-20 times improvement in the battery cycle life under conditions suitable for beyond-lab-scale development, equivalent to pushing the lifetime from a few months to over three years.

The team demonstrated about 1 unit (1 kWh) of electricity storage per 30 kg weight (or ~30 Wh/kg) using small pouch-type cells and can achieve the same storage per 16 kg weight (~60 Wh/kg) in a further scaled-up setup with a high-voltage cathode.

These results are approaching that of competing Li-ion systems and the researchers aim to make further developments given the promise of their tests so far.

Kundu said, “the AZB technology can be implemented as energy storage systems at various scales, from small-scale residential/commercial and medium-scale community storage units to large-scale grid-level installations.

“Other than remote/off-grid power systems, data centres, backup power systems in the industries, e-bikes are some of the applications to which the AZB technology can be extended.

“A safe and affordable AZB technology will accelerate renewable energy integration, enable smart grid technologies for better management of energy distribution, load balancing, and demand response, support the establishment of microgrids powered by renewable energy sources for remote communities, and may provide a cost-effective and reliable storage option for industries like mining, construction, and telecommunications.”

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