Supercapacitors face limitations in capacitance and energy density, which are essential for addressing energy challenges and environmental concerns. The remarkable chemical and thermal stability, high mechanical strength, and tailorable bandgap of Boron Carbon Nitride (BCN) nanoscale materials have attracted increasing attention throughout the last decade. Enhancing supercapacitor performance is achievable through nano engineered BCN electrodes. This examination delves into recent progress in the utilization of BCN substances for supercapacitors, emphasizing advancements in designing structures, engineering porosity/defects, and constructing hybrid nanostructures. Finally, new avenues for investigation into innovative energy storage materials are suggested in this comprehensive review.

中文翻译：

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氮化硼碳（BNC）纳米级材料的最新进展可实现高效的超级电容器性能

超级电容器面临电容和能量密度的限制，这对于解决能源挑战和环境问题至关重要。碳氮化硼（BCN）纳米材料卓越的化学和热稳定性、高机械强度和可定制的带隙在过去十年中引起了越来越多的关注。通过纳米工程 BCN 电极可以增强超级电容器的性能。这项研究深入研究了 BCN 物质用于超级电容器的最新进展，强调了结构设计、工程孔隙率/缺陷和构建混合纳米结构方面的进步。最后，本次综合综述提出了研究创新储能材料的新途径。