High Performance Renewable Batteries from 16th Century Chinese medicine

High Performance Renewable Batteries from 16th Century Chinese medicine

Inspired by 16th century Chinese medicine, Professor Eddie Zhang and his team from the Centre for Clean Environment and Energy have turned to nature for solutions to improve the performance of batteries.

The new research has  identified three natural sources which will not only reduce pollution in the manufacturing of lithium ion batteries and lithium-sulfur batteries, but improve overall performance and cyclability. This discovery could power a new generation of batteries using renewable power generation.

It’s this innovative research focus that saw Professor Zhang named as the mid/senior career research winner in the 2016 Griffith University Vice Chancellor’s Research Excellence Awards.

Associate Professor Eddie Shanqing Zhang receiving his Griffith University Vice Chancellor’s Research Excellence Awards

Professor Zhang said his lifelong dream had been to develop new technologies that would change the world and now, after 20 years of research and world first discoveries, he is on the cusp of another major contribution to the science field.

“This century there are three important things we must explore — the environment, energy and health,” he said. “I am working on two of those areas.”

“Batteries will further improve our modern life but we need to address environmental issues by reducing the use of unsustainable materials and the production of toxic wastes in the manufacturing process.”

The team has identified Gum Acacia, a deciduous legume from Northeast Africa used in food and medicine as a soluble dietary fiber, Sodium Algnate (sea algae) and bamboo carbon has natural sources of highly efficient polymers.

“Among them, the use of the Gum Acacia, as binder could reduce the pollution in the manufacturing process by eliminating the use of toxic solvent NMP and saving millions dollars recycling equipment and improve overall performance of the produced Li-S battery by about 500 per cent in comparison with conventional lithium ion battery,” Professor Zhang said.

“This discovery and achievement will attract battery communities’ interest in developing and commercialising green electrode fabrication process for Lithium-sulfur cells. This fabrication strategy could also be applied to other rechargeable battery systems such as lithium-air and sodium-ion batteries.”

Read More: Centre for Clean Environment and Energy

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