Cyclic Voltammetry Characteristics of Hybridized Carbon Electrode Incorporated in Carbon Nanotube Matrix in Aqueous Electrolytes
DOI:
https://doi.org/10.2025/z08yzg10Abstract
In this work, a design of a hybridized carbon electrode combining the super microporosity and high electrical conductivity is proposed by incorporating carbon nanotubes (CNTs) at different percentage weights in a porous carbon matrix with <2nm pores by sol-gel method. Results showed a semi-ideal capacitive response during the cyclic voltammetry tests. The proposed design safe operation and low cost using aqueous electrolytes, as a promising solution for intensive energy storage applications.
Downloads
Published
Issue
Section
License
Copyright (c) 2026 IRAQI JOURNAL OF APPLIED PHYSICS LETTERS
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
We, the undersigned, the author/authors of this article that is submitted to the Iraqi Journal of Applied Physics Letters (IJAPLett) for publication, declare that we have neither taken part or full text from any published work by others nor presented or published it elsewhere in any other journal. We also declare transferring copyrights and conduct of this article to the Iraqi Journal of Applied Physics Letters (IJAPLett) after accepting it for publication.
The authors will keep the following rights:
- Possession of the article such as patent rights.
- Free of charge use of the article or part of it in any future work by the authors such as books and lecture notes after informing the IJAPLett editorial board.
- Republishing the article for any personal purposes of the authors after taking journal permission.
