Scientists have developed stretchable aqueous lithium-ion battery that may power the next generation of wearable devices. Using hybrid carbon/polymer (HCP) composite as a stretchable current collector, the team developed a highly stretchable rechargeable battery based on aqueous electrolytes.
The findings are expected to expand the number of stretchable nanocomposites with electrochemical and mechanical properties available for use in a wide variety of applications.
Stretchable electronic devices have recently attracted tremendous attention as next-generation devices due to their immense flexibility.
The increasing interest and demand of flexible electronics has fueled the search for highly stretchable electrodes with high mechanical durability and high electrical conductivity during deformation.
Although many methods have been proposed for these electrodes, none of them has managed to simultaneously achieve high stretchability for the electrodes and have a scalable manufacturing process.
The issues were solved by using a conductive polymer composite, composed of Jabuticaba-like hybrid carbon fillers containing carbon nanotubes and carbon black in a simple solution process.
The team observed that the HCP composite is found to effectively retain its electrical conductivity, even under high strain rates.
This makes it suitable for use in highly stretchable aqueous lithium-ion batteries.