Scientists develop highly stretchable aqueous batteries - lithium ion polymer battery

Scientists have developed a rechargeable lithium that can be stretched. ion battery (ARLB)
Based on the water electrolyte, this is necessary for the next wave of wearable electronics.
Tensile electronic equipment has attracted great attention recently.
Power generation equipment due to its huge flexibility.
The growing interest and demand for flexible electronics has driven the study of high tensile electrodes with high mechanical durability and high conductivity.
Scientists have developed a rechargeable lithium that can be stretched. ion battery (ARLB)
Based on the water electrolyte, this is necessary for the next wave of wearable electronics.
Tensile electronic equipment has attracted great attention recently.
Power generation equipment due to its huge flexibility.
The growing interest and demand for flexible electronics has driven the study of high tensile electrodes with high mechanical durability and high conductivity.
Although many methods have been proposed for these electrodes, none of them can achieve high scalability of the electrodes at the same time and have a scalable manufacturing process.
Researchers in Korea's Ulsan National Science and technology in solving such problems in conductive polymer composites by Jabuticaba-
Just like a mixed carbon filler containing carbon nanotubes and carbon black in a simple solution process.
This structure is similar in shape to the Brazilian Vine Jabuticaba tree.
They observed that HCP composites were found to maintain their conductivity effectively even at high strain rates.
This makes it suitable for high stretch water Li-
According to research published in the journal Advanced Energy Materials, ion batteries.
Professor Kwanyong Seo said: "Our findings are expected to expand the number of stretchable nano-composites that have the electrochemical and mechanical properties that can be used in a variety of applications . ", From the National Institute of Science and Technology. .