Fabrication of pectin biopolymer‐based biocompatible freestanding electrodes for supercapacitor applications

Abstract: Implantable energy storage devices that are soft, flexible, biocompatible, and biodegradable are the focus of current bio‐instrumentation research. Polymer gel‐based electrodes for energy storage applications such as supercapacitors and rechargeable batteries have a wide attraction for modern technology. This work proposes a flexible, transparent, and biodegradable electrode using pectin biopolymer with a biocompatible electrolyte as a supercapacitor. The biopolymer pectin can be a promising candidate for such… Show more

“…The research by Harikumar and Batabyal portrayed a novel study into creating a flexible, transparent, and biodegradable supercapacitor electrode using a pectin biopolymer and a biocompatible electrolyte. The work comprehensively explored pectin biopolymer-based electrodes due to their stability and specific capacitance.…”

Advances, Synergy, and Perspectives of Machine Learning and Biobased Polymers for Energy, Fuels, and Biochemicals for a Sustainable Future

“…The research by Harikumar and Batabyal portrayed a novel study into creating a flexible, transparent, and biodegradable supercapacitor electrode using a pectin biopolymer and a biocompatible electrolyte. The work comprehensively explored pectin biopolymer-based electrodes due to their stability and specific capacitance.…”

Advances, Synergy, and Perspectives of Machine Learning and Biobased Polymers for Energy, Fuels, and Biochemicals for a Sustainable Future

Electrodeposited pectin/reduced carbon dots scaffold on the pencil graphite electrode as a support of electroloaded nickel nanoparticles for electrocatalytic purpose

Bio-polymer pectin as morphological modifier for polyaniline: Stability enhancement for energy storage applications