Evaluation of the electrochemical energy storage performance of symmetric supercapacitor devices based on eco-friendly synthesized nitrogen-doped graphene-like derivative electrodes from the perspective of their nanostructural characteristics†
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引用次数: 0
Abstract
The potential use of several ecofriendly nitrogen-doped 2D graphene-like derivatives (N-2D GDs) with various graphitic structural features as electrode materials for symmetric 2-electrode supercapacitor devices was explored. The N-2D GDs were synthesized via a novel, facile, ecofriendly, economic and scalable technique. The synthesis technique is simply a single-step hydrothermal treatment of glucose using traces of cetyltrimethylammonium bromide (CTAB) and ammonia as structure-directing agents. Graphitic structural characteristics were controlled by manipulating hydrothermal process temperature and CTAB dose. Electrochemical energy storage performance was found to be strongly dependent on the oxidation level, doped-N content and configuration, density of graphitic surface-capping by CTAB, morphological architecture and graphitic structural order of N-2D GD-based electrodes. Interestingly, such graphitic structural parameters influenced overall charge-storage capacitance through EDLC and pseudocapacitance mechanisms in a competitive manner. An N-2D GD sample synthesized at a hydrothermal temperature of 270 °C and CTAB/glucose molar ratio of 1/6 (NG-HCD270) exhibited the best energy storage capacitive performance in a symmetric 2-electrode supercapacitor system owing to the almost pure well-ordered N-doped graphene. It showed excellent electrochemical energy storage performance as compared to other 2D graphene derivatives reported in the literature synthesized via toxic conventional methods, with a specific capacitance of 553 F g−1, energy density of 84.5 W h kg−1, power density of 550.2 W kg−1 and 88.5% capacitance retention after 5000 cycles. Thus, the NG-HCD270 graphitic sample can be considered a promising ecofriendly and cost-effective electrode material for high-performance supercapacitors, which can benefit the substantial development of electrical energy storage industry and, hence, electrical power production from renewable energy sources at competitive costs.
探讨了几种具有不同石墨结构特征的氮掺杂二维类石墨烯衍生物(N-2D GDs)作为对称双电极超级电容器器件电极材料的潜在用途。通过一种新颖、简便、环保、经济和可扩展的技术合成了N-2D GDs。该合成技术是简单的一步水热处理葡萄糖使用微量十六烷基三甲基溴化铵(CTAB)和氨作为结构导向剂。通过控制水热工艺温度和CTAB用量来控制石墨的结构特性。电化学储能性能与N-2D gd电极的氧化水平、掺杂n的含量和构型、CTAB覆盖石墨表面的密度、形态结构和石墨结构顺序密切相关。有趣的是,这种石墨结构参数通过EDLC和伪电容机制以竞争的方式影响总体电荷存储电容。在水热温度为270℃、CTAB/葡萄糖摩尔比为1/6 (NG-HCD270)的条件下合成的N-2D GD样品在对称的2电极超级电容器体系中表现出最佳的储能性能,这是因为n掺杂石墨烯几乎是纯净有序的。与传统方法合成的2D石墨烯衍生物相比,该材料具有优异的电化学储能性能,比电容为553 F g−1,能量密度为84.5 W h kg−1,功率密度为550.2 W kg−1,循环5000次后电容保持率为88.5%。因此,NG-HCD270石墨样品可以被认为是一种有前景的环保且具有成本效益的高性能超级电容器电极材料,它可以有利于电能存储行业的实质性发展,从而以具有竞争力的成本从可再生能源中生产电力。
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