Three-Dimensional Hierarchically Ordered Porous Carbons with Partially 
Graphitic Nanostructures for Electrochemical Capacitive Energy Storage

Huang, Chun-Hsien; Zhang, Qiang; Chou, Tsu-Chin; Chen, Chenmeng; Su, Dang Sheng; Doong, Ruey-An

doi:10.1002/cssc.201100618

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Three-Dimensional Hierarchically Ordered Porous Carbons with Partially Graphitic Nanostructures for Electrochemical Capacitive Energy Storage

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Huang, Chun-Hsien
Department of Biomedical Engineering and Environmental Sciences, National Tsing-Hua University;
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;

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Zhang, Qiang
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;
Department of Chemical Engineering, Tsinghua University;

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Chen, Chenmeng
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;
Key Laboratory of Carbon Materials, Institute of Coal Chemistry, Chinese Academy of Sciences;

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Su, Dang Sheng
Inorganic Chemistry, Fritz Haber Institute, Max Planck Society;
Shenyang National Laboratory for Materials Science Institute of Metal Research, Chinese Academy of Science;

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Zitation

Huang, C.-H., Zhang, Q., Chou, T.-C., Chen, C., Su, D. S., & Doong, R.-A. (2012). Three-Dimensional Hierarchically Ordered Porous Carbons with Partially Graphitic Nanostructures for Electrochemical Capacitive Energy Storage. ChemSusChem: chemistry & sustainability, energy & materials, 5(3), 563-571. doi:10.1002/cssc.201100618.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-000F-83FD-9

Zusammenfassung

Three-dimensional, hierarchically ordered, porous carbon (HOPC) with designed porous textures, serving as an ion-buffering reservoir, an ion-transport channel, and a charge-storage material, is expected to be advanced an energy material for high-rate supercapacitors. Herein, HOPC without/with partially graphitic nanostructures have been directly synthesized by means of a simple one-pot synthesis procedure. The designed porous textures of the 3D HOPC materials are composed of highly ordered, fcc macroporous (300 nm), interconnected porous structures, including macroporous windows (170 nm), hexagonally ordered mesopores (5.0 nm), and useful micropores (1.2 nm). 3D HOPC-g-1000 (g=graphitic, 1000=pyrolysis temperature of 1000 °C) with partially graphitic nanostructures has a low specific surface area (296 m2 g−1) and a low gravimetric specific capacitance (73.4 F g−1 at 3 mV s−1), but improved electrical conductivity, better rate performance, higher electrolyte accessibility (24.8 μF cm−2 at 3 mV s−1), faster frequency response (≈1 Hz), and excellent cycling performance (>5400 cycles). The specific capacitance per surface area is higher than that of conventional porous carbons, carbon nanotubes, and modified graphene (10–19 μF cm−2).