Achieving commercial-level mass loading in ternary-doped holey graphene hydrogel electrodes for ultrahigh energy density supercapacitors

Pan Zhenghui; Zhi Huozhen; Qiu Yongcai; Yang Jie; Xing Lidan; Zhang Qichong; Ding Xiaoyu; Wang Xianshu; Xu Guoguang; Yuan Hua; Chen Min; Li Wanfei; Yao Yagang; Motta Nunzio; Liu Meinan; Zhang Yuegang

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Achieving commercial-level mass loading in ternary-doped holey graphene hydrogel electrodes for ultrahigh energy density supercapacitors

机译：用于超高能量密度超级电容器中三元掺杂的HOTELY石墨烯水凝胶电极的商业水平荷载

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Enabling fast ion diffusion in thick electrodes (100-200 mu m, similar to 10 mg cm(-2)) is critical for their practical application in state-of-the-art supercapacitors (SCs). We developed a three-dimensional (3D) boron, nitrogen, and phosphorus ternary-doped holey graphene hydrogel (BNP-HGH) film to achieve an optimized porous structure with a high electrical conductivity, large ion accessible surface area, efficient electron and ion transport pathways, as well as high ion adsorption capacity. The binder-free BNP-HGH electrode can deliver a specific capacitance of 350 F g(-1) and a volumetric capacity of 234 F cm(-3), which are the best performance reported so far for graphene-based SCs using an organic electrolyte. Fully packaged SCs using the BNP-HGH electrodes with a commercial level graphene mass loading (150 mu m, similar to 10 mg cm(-2)) can deliver ultrahigh stack gravimetric and volumetric energy densities of 38.5 Wh kg(-1) and 57.4 Wh L-1, respectively, which are comparable to those of lead-acid batteries (35-40 Wh kg(-1) and 50-90 Wh L-1) while maintaining an ultrahigh power density of 83 kW kg(-1) (similar to 55 kW L-1) as well as a long cycle life (81.3% capacitance retention over 50,000 cycles). The high energy and power densities bridge the gap between traditional SCs and batteries, and should be very useful in practical applications.

机译：在厚电极（100-200μm，类似于10mgcm（-2）的厚电极（100-200μm）的快速离子扩散对于它们在最先进的超级电容器（SCS）中的实际应用至关重要。我们开发了一种三维（3D）硼，氮气和磷三元掺杂的多孔石墨烯水凝胶（BNP-HGH）膜，以实现具有高导电性，大离子可接近表面积，高效电子和离子运输的优化多孔结构途径，以及高离子吸附能力。无粘合剂的BNP-HGH电极可以提供350 f G（-1）的特定电容和234 f cm（-3）的容量，这是迄今为止使用有机的石墨烯的SCS报告的最佳性能电解质。使用具有商业水平石墨烯质量负荷的BNP-HGH电极（150μm，类似于10mg cm（-2））的完全打包的SCs可以提供超高堆重量和38.5WHKG（-1）和57.4的体积能量密度分别与铅酸电池（35-40WH（-1）和50-90WH L-1）相当的WH L-1，同时保持超高功率密度为83 kW kg（-1）（类似于55 kW L-1）以及长循环寿命（81.3％超过50,000个循环的电容潴留）。高能和功率密度桥接传统SCS和电池之间的差距，在实际应用中应该非常有用。

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来源
《Nano Energy 》 |2018年第2018期| 共11页
作者
Pan Zhenghui; Zhi Huozhen; Qiu Yongcai; Yang Jie; Xing Lidan; Zhang Qichong; Ding Xiaoyu; Wang Xianshu; Xu Guoguang; Yuan Hua; Chen Min; Li Wanfei; Yao Yagang; Motta Nunzio; Liu Meinan; Zhang Yuegang;
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作者单位

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

South China Normal Univ Sch Chem &

Environm Guangzhou 510631 Guangdong Peoples R China;

South China Univ Technol Coll Environm &

Energy Guangzhou 510000 Guangdong Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

South China Normal Univ Sch Chem &

Environm Guangzhou 510631 Guangdong Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

South China Normal Univ Sch Chem &

Environm Guangzhou 510631 Guangdong Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

Tsinghua Univ Dept Phys Beijing 100084 Peoples R China;

South China Normal Univ Sch Chem &

Environm Guangzhou 510631 Guangdong Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

Queensland Univ Technol Inst Future Environm Brisbane Qld 4001 Australia;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

Chinese Acad Sci Suzhou Inst Nanotech &

Nanobion Suzhou 215123 Jiangsu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类能源与动力工程 ;
关键词
Supercapacitors; B; N; P; ternary-doped; Holey graphene hydrogel; Commercial level graphene mass loading; Ultrahigh energy density;

机译：超级电容器;B;n;p;三元掺杂;HOLENY石墨烯水凝胶;商业水平石墨烯质量负荷;超高能量密度;

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专利

1. Achieving commercial-level mass loading in ternary-doped holey graphene hydrogel electrodes for ultrahigh energy density supercapacitors [J] . Pan Zhenghui, Zhi Huozhen, Qiu Yongcai, Nano Energy . 2018 ,第期

机译：用于超高能量密度超级电容器中三元掺杂的HOTELY石墨烯水凝胶电极的商业水平荷载
2. Dry-Processed, Binder-Free Holey Graphene Electrodes for Supercapacitors with Ultrahigh Areal Loadings [J] . Walsh Evan D., Han Xiaogang, Lacey Steven D., ACS applied materials & interfaces . 2016 ,第43期

机译：干处理，无粘合剂的多孔石墨烯电极，用于超高面负载的超级电容器
3. Nano-RuO_2-Decorated Holey Graphene Composite Fibers for Micro-Supercapacitors with Ultrahigh Energy Density [J] . Shengli Zhai, Chaojun Wang, Huseyin Enis Karahan, Small . 2018 ,第29期

机译：纳米Ruo_2装饰的HOLED石墨烯复合纤维，用于微超级电容器，具有超高能量密度
4. Role of Reduced Graphene Oxide Binder for Supercapacitor with Commercial-Level Mass Loading [C] . Ji-Hyuk Choi, Byung-su Kim Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：石墨烯氧化物粘合剂对超级电容器的作用
5. Graphene Electrodes for Supercapacitors and Capacitive Deionization [D] . Chang, Liang 2018

机译：用于超级电容器和电容去离子的石墨烯电极
6. Modified MXene/Holey Graphene Films for Advanced Supercapacitor Electrodes with Superior Energy Storage [O] . Zhimin Fan, Youshan Wang, Zhimin Xie, 2018

机译：用于高级超级电容器电极的改性MXene / Holey石墨烯薄膜具有出色的储能性能
7. Dry-Processed, Binder-Free Holey Graphene Electrodes for Supercapacitors with Ultrahigh Areal Loadings [O] . -1

机译：用于超高速度的超级电容器的干式加工的粘合剂无顶气石墨烯电极

Achieving commercial-level mass loading in ternary-doped holey graphene hydrogel electrodes for ultrahigh energy density supercapacitors

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