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New battery could solve intermittency issues

Scientists at the University of Southern California (USC) have developed a water-based organic battery that is claimed to be long lasting, built from cheap, eco-friendly components.

The new battery, which uses no metals or toxic materials, is intended for use in power plants, where it can make the energy grid more resilient and efficient by creating a large-scale means to store energy for use as needed.

‘The batteries last for about 5,000 recharge cycles, giving them an estimated 15-year lifespan,’ said Sri Narayan, professor of chemistry at the USC Dornsife College of Letters, Arts and Sciences and corresponding author of a paper describing the new batteries in Journal of the Electrochemical Society. ‘Lithium ion batteries degrade after around 1,000 cycles, and cost 10 times more to manufacture.’

USC professor Sri Narayan's research focuses on the fundamental and applied aspects of electrochemical energy conversion and storage to reduce the carbon footprint of energy use and by providing energy alternatives to fossil fuel

Source: USC Photo/Gus Ruelas

USC professor Sri Narayan’s research focuses on the fundamental and applied aspects of electrochemical energy conversion and storage to reduce the carbon footprint of energy use and by providing energy alternatives to fossil fuel

Narayan collaborated with Surya Prakash, Prakash, professor of chemistry and director of the USC Loker Hydrocarbon Research Institute, as well as USC’s Bo Yang, Lena Hoober-Burkhardt, and Fang Wang.

‘Such organic flow batteries will be game-changers for grid electrical energy storage in terms of simplicity, cost, reliability and sustainability,’ Prakash said in a statement.

The batteries could pave the way for renewable energy sources to make up a greater share of the USA’s nation’s energy generation as they could help solve intermittency issues.

‘”Mega-scale” energy storage is a critical problem in the future of the renewable energy, requiring inexpensive and eco-friendly solutions,’ Narayan said.

The new battery is based on a redox flow design – similar in design to a fuel cell, with two tanks of electroactive materials dissolved in water. The solutions are pumped into a cell containing a membrane between the two fluids with electrodes on either side, releasing energy.

The design has the advantage of decoupling power from energy. The tanks of electroactive materials can be made as large as needed – increasing total amount of energy the system can store – or the central cell can be adjusted to release that energy faster or slower, altering the amount of power that the system can generate.

The team’s breakthrough centred around the electroactive materials. While previous battery designs have used metals or toxic chemicals, Narayan and Prakash wanted to find an organic compound that could be dissolved in water. Such a system would create a minimal impact on the environment, and would likely be cheap, they figured.

Through a combination of molecule design and experimentation, they found that certain naturally occurring quinones – oxidised organic compounds – were suited to the task. Quinones are found in plants, fungi, bacteria, and some animals, and are involved in photosynthesis and cellular respiration.

‘These are the types of molecules that nature uses for energy transfer,’ Narayan said.

Currently, the quinones needed for the batteries are manufactured from naturally occurring hydrocarbons. In the future, the potential exists to derive them from carbon dioxide, Narayan said.

The team has filed several patents in regards to design of the battery, and next plans to build a larger scale version.


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