From rice bran to high energy density supercapacitors: A new route to control porous structure of 3D carbon

Jianhua Hou; Chuanbao Cao; Xilan Ma; Faryal Idrees; Bin Xu; Xin Hao; Wei Lin

doi:10.1038/srep07260

From rice bran to high energy density supercapacitors: A new route to control porous structure of 3D carbon

Jianhua Hou, Chuanbao Cao^*, Xilan Ma, Faryal Idrees, Bin Xu, Xin Hao, Wei Lin

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

135 引用（Scopus）

摘要

Controlled micro/mesopores interconnected structures of three-dimensional (3D) carbon with high specific surface areas (SSA) are successfully prepared by carbonization and activation of biomass (raw rice brans) through KOH. The highest SSA of 2475 m² g^-1 with optimized pore volume of 1.21 cm 3g^-1 (40% for mesopores) is achieved for KOH/RBC = 4 mass ratio, than others. The as-prepared 3D porous carbon-based electrode materials for supercapacitors exhibit high specific capacitance specifically at large current densities of 10 A g^-1 and 100 A g^-1 i.e., 265 F g^-1 and 182 F g^-1 in 6 M KOH electrolyte, respectively. Moreover, a high power density ca. 1223 W kg^-1 (550 W L^-1) and energy density 70 W h kg^-1 (32 Wh L^-1) are achieved on the base of active material loading (∼10 mg cm²) in the ionic liquid. The findings can open a new avenue to use abundant agricultural by-products as ideal materials with promising applications in high-performance energy-storage devices.

源语言	英语
文章编号	7260
期刊	Scientific Reports
卷	4
DOI	https://doi.org/10.1038/srep07260
出版状态	已出版 - 2014

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title = "From rice bran to high energy density supercapacitors: A new route to control porous structure of 3D carbon",

abstract = "Controlled micro/mesopores interconnected structures of three-dimensional (3D) carbon with high specific surface areas (SSA) are successfully prepared by carbonization and activation of biomass (raw rice brans) through KOH. The highest SSA of 2475 m2 g-1 with optimized pore volume of 1.21 cm 3g-1 (40% for mesopores) is achieved for KOH/RBC = 4 mass ratio, than others. The as-prepared 3D porous carbon-based electrode materials for supercapacitors exhibit high specific capacitance specifically at large current densities of 10 A g-1 and 100 A g-1 i.e., 265 F g-1 and 182 F g-1 in 6 M KOH electrolyte, respectively. Moreover, a high power density ca. 1223 W kg-1 (550 W L-1) and energy density 70 W h kg-1 (32 Wh L-1) are achieved on the base of active material loading (∼10 mg cm2) in the ionic liquid. The findings can open a new avenue to use abundant agricultural by-products as ideal materials with promising applications in high-performance energy-storage devices.",

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T2 - A new route to control porous structure of 3D carbon

AU - Hou, Jianhua

AU - Cao, Chuanbao

AU - Ma, Xilan

AU - Idrees, Faryal

AU - Xu, Bin

AU - Hao, Xin

AU - Lin, Wei

PY - 2014

Y1 - 2014

N2 - Controlled micro/mesopores interconnected structures of three-dimensional (3D) carbon with high specific surface areas (SSA) are successfully prepared by carbonization and activation of biomass (raw rice brans) through KOH. The highest SSA of 2475 m2 g-1 with optimized pore volume of 1.21 cm 3g-1 (40% for mesopores) is achieved for KOH/RBC = 4 mass ratio, than others. The as-prepared 3D porous carbon-based electrode materials for supercapacitors exhibit high specific capacitance specifically at large current densities of 10 A g-1 and 100 A g-1 i.e., 265 F g-1 and 182 F g-1 in 6 M KOH electrolyte, respectively. Moreover, a high power density ca. 1223 W kg-1 (550 W L-1) and energy density 70 W h kg-1 (32 Wh L-1) are achieved on the base of active material loading (∼10 mg cm2) in the ionic liquid. The findings can open a new avenue to use abundant agricultural by-products as ideal materials with promising applications in high-performance energy-storage devices.

AB - Controlled micro/mesopores interconnected structures of three-dimensional (3D) carbon with high specific surface areas (SSA) are successfully prepared by carbonization and activation of biomass (raw rice brans) through KOH. The highest SSA of 2475 m2 g-1 with optimized pore volume of 1.21 cm 3g-1 (40% for mesopores) is achieved for KOH/RBC = 4 mass ratio, than others. The as-prepared 3D porous carbon-based electrode materials for supercapacitors exhibit high specific capacitance specifically at large current densities of 10 A g-1 and 100 A g-1 i.e., 265 F g-1 and 182 F g-1 in 6 M KOH electrolyte, respectively. Moreover, a high power density ca. 1223 W kg-1 (550 W L-1) and energy density 70 W h kg-1 (32 Wh L-1) are achieved on the base of active material loading (∼10 mg cm2) in the ionic liquid. The findings can open a new avenue to use abundant agricultural by-products as ideal materials with promising applications in high-performance energy-storage devices.

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From rice bran to high energy density supercapacitors: A new route to control porous structure of 3D carbon

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