Abstract:
Carbon materials in their various forms are the most used electrode materials in the
fabrication of supercapacitors. Activated carbon is derived from a variety of organic
parent sources such as lignite, peat, coal, synthetic resins and biomass resources. Sri
Lanka holds a global reputation for supplying high quality activated carbon derived
from coconut shell with low levels of contaminants, which makes it ideal for
incorporating in supercapacitors as the electrode material.
The capacitance of supercapacitors, fabricated from activated carbon and an aqueous
electrolyte, arises from the charge stored in the electric double layer at the interface
between the surface of porous carbon and the electrolyte. Hermann von Helmholtz
first proposed the double layer theory for supercapacitors and Gouy, Chapman,
Grahame, and Stem later developed it.
In electric double layer capacitors, self-discharge has been an inevitable issue which
results in the decay of cell voltage and thus loss of stored energy. Further, fast selfdischarge
rates restrict practical applications of the supercapacitors. In this research,
our major interest was to identify the self-discharge mechanism of the supercapacitor
fabricated using locally developed activated carbon in a neutral aqueous electrolyte.
The results indicate that self-discharge of the fabricated supercapacitor can be
adequately modeled simulating to the diffusion based model.
Citation:
Gunarathna, R.N.P., Muhandiram, D.I., Attygalle, D., & Amarasinghe, D.A.S. (2019). Investigation of self discharge mechanism of locally available activated carbon-based super capacitor
[Abstract]. In V. Sivahar & H.S. Sitinamaluwa (Eds.), Dreams to reality through innovative materials (p. 2). Department of Materials Science and Engineering, University of Moratuwa.