A5009209371- Conducting polymers and applications
- Supercapacitor Materials and Fabrication
- Advanced Sensor and Energy Harvesting Materials
- Advanced Battery Materials and Technologies
- Electrochemical sensors and biosensors
- Chemical Synthesis and Characterization
- Advancements in Battery Materials
CIC energiGUNE
2024
Loughborough University
2019-2023
Abstract Metal-based materials, such as silver or copper, are highly desired current collector materials for flexible energy storage due to their excellent electrical properties but lack the long-term operational electrochemical stability. Herein we report a method prevent corrosion of while fully exploiting properties. This was achieved by covering with an electrochemically stable conductive carbon-based layer. The barrier layer allows flow charge between electrically elements textile...
Wearable electronics have attracted attention due to their many potential applications ranging from body-worn entertainment, protection, sensing, communication and medical purposes. To function, energy supplying devices are necessary, which required be lightweight, flexible, possess high power performance. Herein, a strategy was proposed maximise the performance of textile supercapacitors via carbon conductive additives with higher percolation threshold compared Super C65, black choice in...
Abstract Electrode manufacturing for electrochemical energy storage technologies often relies on hazardous fluorine‐containing compounds and toxic organic solvents. To align with sustainability goals reduce costs, there is a pressing need water‐processable alternatives. These alternatives can halve electrode processing costs ease regulatory burdens. While progress has been made water‐processed graphite electrodes using eco‐friendly binders, challenges persist high‐mass loading activated...
The mass commercialization of electronic textiles is currently hindered due to the lack reliable manufacturing technologies energy storing textiles. To incorporate storage as a part garment, it must be manufactured in systematic manner, allowing integration multiple components simultaneously. Aiming towards process automation, carbon-based screen-printing inks were formulated for textile supercapacitor applications, focusing on effect carbon additives electrochemical performance. Devices...
Silver and copper are highly desired as current collector materials for flexible energy storage due to their excellent electrical properties but lack the long-term operational electrochemical stability. Herein we report a method prevent corrosion of such materials, while fully exploiting properties. This was achieved by covering with an electrochemically stable conductive carbon-based layer. The barrier layer allows flow charge between electrically elements textile composite electrodes,...