news

‘Candy cane’ structure promises supercapacitor boost

Researchers at Queen Mary University of London (QMUL) and Cambridge University have developed a polymer electrode that could dramatically improve the performance of supercapacitors.

 

Candy-cane-supercapacitor-768×386

(Credit: Stoyan Smoukov)

According to the team, the electrode is capable of energy storage close to the theoretical limit, while also being flexible and durable over repeat cycles. These properties are a result of the polymer’s ‘candy cane’ structure, whereby the ionically conductive and electrically conductive strands are interwoven on a nanoscale level.

“Our supercapacitors can store a lot of charge very quickly, because the thin active material (the conductive polymer) is always in contact with a second polymer which contains ions, just like the red thin regions of a candy cane are always in close proximity to the white parts,” said project leader Stoyan Smoukov.

“But this is on a much smaller scale. This interpenetrating structure enables the material to bend more easily, as well as swell and shrink without cracking, leading to greater longevity. This one method is like killing not just two, but three birds with one stone.”

Growing polymers as nanostructures can increase the amount of accessible material near the surface, but this can be expensive, hard to scale up, and result in poor mechanical stability. The researchers were able to interweave nanostructures within a bulk material, achieving the benefits without using complex synthesis methods or sacrificing material toughness.

Read the full article here: https://www.theengineer.co.uk/candy-cane-structure-supercapacitors/

Details

Category

Design engineering PE News

Date

August 17, 2017

Author

Sally

social
Share This Project
Comment Form