Supercapactitors developed for flexible electronics
According to Wei, stretchable electronics are the future of mobile electronics, leading giants such as IBM, Sony and Nokia to incorporate the technology into their products.
"Advances in soft and stretchable substrates and elastomeric materials have given rise to an entirely new field," says Wei, a mechanical engineering professor at UD. But even if scientists can engineer stretchable electronics—what about their energy source?
Wei's research group at the University is making significant progress in developing scalable, stretchable power sources for this type of application using carbon nanotube macrofilms, polyurethane membranes and organic electrolytes. This, he says, requires new thinking about materials processing and device manufacturing to maximise energy storage without compromising energy resources. To reveal a stretchable supercapacitator's true performance, the Wei group examined the system's electrochemical behaviour using buckled single-wall nanotube (SWNT) electrodes and an elastomeric separator.
According to Wei, the supercapacitor developed in his lab achieved excellent stability in testing and the results will provide important guidelines for future design and testing of this leading-edge energy storage device. As they work to refine the technology, Wei has filed a provisional patent to protect his team's research. The work was recently published in Nano Letters, a journal of the American Chemical Society.
- Julien Happich