Collagen‐Based Flexible Electronic Devices for Electrochemical Energy Storage and Sensing

Abstract: The development of high‐performance and low‐cost, flexible electronic devices is a crucial prerequisite for emerging applications of energy storage, conversion, and sensing system. Collagen as the most abundant structural protein in mammals, owing to the unique amino acid composition and hierarchical structure, the conversion of collagen into collagen‐derived carbon materials with different nanostructures and abundant ideal heteroatom doping through the carbonization method is expected to be a promising candid… Show more

“…This makes them ideal for medical applications that require direct integration with the human body. Additionally, their integration into wearable electronics allows for the conversion of human motion into electrical energy, thus providing a sustainable power source for sensors and electronic devices worn on the body [101]. Furthermore, collagen-based TENGs play an important role in environmental monitoring [94].…”

Advanced Triboelectric Applications of Biomass-Derived Materials: A Comprehensive Review

“…This makes them ideal for medical applications that require direct integration with the human body. Additionally, their integration into wearable electronics allows for the conversion of human motion into electrical energy, thus providing a sustainable power source for sensors and electronic devices worn on the body [101]. Furthermore, collagen-based TENGs play an important role in environmental monitoring [94].…”

Advanced Triboelectric Applications of Biomass-Derived Materials: A Comprehensive Review

Flexible and robust Polypyrrole/Cross-linked collagen sponge with collagen aggregates as building blocks for piezoresistive sensing

Electrochemical energy storage performance of one-step laser written Cu-C composites