ACS Applied Energy Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 20, 2025

Graphitic carbon nitride (GCN), a graphite-like material composed of aromatic tri-s-triazine units, has recently gained recognition as promising candidate for supercapacitor electrode applications. Its abundant availability, metal-free composition, high nitrogen content, and responsiveness to environmental conditions make GCN highly attractive energy storage solutions. Despite this potential, challenges remain in optimizing its specific capacity density. This review stands out by comprehensively analyzing various synthesis methods such hydrothermal, solvothermal, sol–gel techniques critically examining how these influence electrochemical performance. A particular focus is placed on identifying optimal through detailed comparison their impact key functional parameters. differentiates from previous studies' in-depth exploration advanced strategies enhance GCN's properties. Specifically, the delves into innovative approaches like element doping hybridization with polymers, metals, carbon-based materials, offering new pathways significantly boost performance electrodes. These cutting-edge have not been systematically explored other reviews, positioning article forward-thinking contribution field. In addition, takes broader, interdisciplinary approach functionality applications, water splitting, critical commonalities between parameters applications those supercapacitors. cross-application analysis, rarely addressed literature, opens avenues development, suggesting that insights related fields can accelerate optimization electrode. By emphasizing combination metal-based hybridization, offers novel perspective advancing technology. It also addresses current provides practical recommendations, making it pivotal resource future breakthroughs

Language: Английский