Development of nitrogen and phosphorus dual-doped reduced graphene oxide from waste plastic for supercapacitor applications: Comparative electrochemical performance in different electrolytes
Autor: | Kundan Singh Rawat, Chetna Tewari, Tanuja Arya, Young Nam Kim, Prabhat Pant, Satish Sati, Sunil Dhali, Pushpa Bhakuni Negi, Yong Chae Jung, Nanda Gopal Sahoo |
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Jazyk: | angličtina |
Rok vydání: | 2025 |
Předmět: | |
Zdroj: | Next Energy, Vol 6, Iss , Pp 100209- (2025) |
Druh dokumentu: | article |
ISSN: | 2949-821X 96240873 |
DOI: | 10.1016/j.nxener.2024.100209 |
Popis: | The persistent non-biodegradable nature of plastic highlights the urgent need for effective waste management and resource conservation, underscoring the crucial importance of recycling and upcycling within a cradle-to-cradle framework. This research introduces an eco-friendly and straightforward upcycling process for plastic waste, which produces significant quantities of reduced graphene oxide through a carefully designed 2-stage pyrolysis method. To enhance the electrochemical properties of the reduced graphene oxide, they were doped with heteroatoms (i.e. nitrogen and phosphorus) via a hydrothermal route. Also, as the nature of the electrolyte plays a significant role in electrochemical analysis, a comparative evaluation of the supercapacitive performance of the heteroatom-doped reduced graphene oxide was conducted across various aqueous electrolytes, including 1 M H2SO4, 6 M KOH, and 2 M KCl, as well as hydrogel polymer electrolytes such as 1 M H2SO4/1 M PVA, 2 M KCl/1 M PVA, and 6 M KOH/1 M PVA. Our results demonstrate that synthesized material from waste plastic exhibits excellent performance, particularly when combined with a 1 M H2SO4 electrolyte, achieving the highest specific capacitance of 407.6 F/g. In conclusion, this study presents a cost-effective and sustainable approach to promoting a circular economy by repurposing waste plastic for energy storage applications. |
Databáze: | Directory of Open Access Journals |
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