Sustainability and Technical Performance of An All-Organic Aqueous Sodium-Ion Hybrid Supercapacitor
Journal article, 2022
Development of all-organic aqueous energy storage devices (ESDs) is a promising pathway towards meeting the needs of technically medium/low-demanding electrical applications. Such ESDs should favour low cost, low environmental impact, and safety, and thereby complement more expensive, high voltage, and energy/power dense ESDs such as lithium-ion batteries. Herein, we set out to assemble all-organic aqueous Na-ion hybrid supercapacitors, exclusively using commercial materials, with the aim to provide a truly sustainable and lowcost ESD. Overall, the created ESD delivers adequate technical performance in terms of capacity retention, Coulombic efficiency, energy efficiency, and energy/power density. Finally, we apply a straight-forward and qualitative biodegradability method to the ESD.
all-organic
supercapattery
hybrid ion capacitor
aqueous electrolyte
battery-supercapacitor hybrid
sodium-ion capacitor
Author
Martin Karlsmo
Chalmers, Physics, Materials Physics
Patrik Johansson
Alistore - European Research Institute
Chalmers, Physics, Materials Physics
Batteries and Supercaps
25666223 (eISSN)
e202200306Subject Categories (SSIF 2011)
Renewable Bioenergy Research
Other Environmental Engineering
Energy Systems
Infrastructure
Chalmers Materials Analysis Laboratory
DOI
10.1002/batt.202200306