通过自组装简便控制落叶松衍生介孔碳的多孔结构用于超级电容器

Facile Control of the Porous Structure of Larch-Derived Mesoporous Carbons via Self-Assembly for Supercapacitors.

作者信息

Zhao Xin, Li Wei, Chen Honglei, Wang Shoujuan, Kong Fangong, Liu Shouxin

机构信息

Key Lab of Pulp and Paper Science and Technology of Ministry of Education (Shandong Province), Qilu University of Technology, Jinan 250353, China.

College of Material Science and Engineering, Northeast Forestry University, Harbin 150040, China.

出版信息

Materials (Basel). 2017 Nov 20;10(11):1330. doi: 10.3390/ma10111330.

DOI:10.3390/ma10111330

PMID:29156641

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5706277/

Abstract

Mesoporous carbons have been successfully synthesized via self-assembly using larch-based resins as precursors and triblock copolymers as soft templates. The porous structure of mesoporous carbons can be tailored by adjusting the ratio of hydrophilic/hydrophobic (EO/PO) units owing to interfacial curvature. Interestingly, the porous structures show a distinct change from vortex-like to worm-like pores, to stripe-like pores, and to ordered two-dimensional hexagonal pores as the ratio of hydrophilic/hydrophobic units increases, indicating the significant effect of EO/PO ratio on the porous structure. The mesoporous carbons as supercapacitor electrodes exhibit superior electrochemical capacitive performance and a high degree of reversibility after 2000 cycles for supercapacitors due to the well-defined mesoporosity of the carbon materials. Meanwhile, the superior carbon has a high specific capacitance of 107 F·g in 6 M KOH at a current density of 10 A·g.

摘要

以落叶松基树脂为前驱体、三嵌段共聚物为软模板，通过自组装成功合成了介孔碳。由于界面曲率，介孔碳的多孔结构可通过调节亲水/疏水（EO/PO）单元的比例来定制。有趣的是，随着亲水/疏水单元比例的增加，多孔结构呈现出从涡旋状孔到蠕虫状孔、再到条纹状孔、最后到有序二维六角形孔的明显变化，表明EO/PO比例对多孔结构有显著影响。作为超级电容器电极的介孔碳，由于碳材料具有明确的介孔率，在超级电容器经过2000次循环后表现出优异的电化学电容性能和高度的可逆性。同时，这种优质碳在6 M KOH中、电流密度为10 A·g时具有107 F·g的高比电容。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cca8/5706277/7f657cd5e1c2/materials-10-01330-g001.jpg

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通过自组装简便控制落叶松衍生介孔碳的多孔结构用于超级电容器

Facile Control of the Porous Structure of Larch-Derived Mesoporous Carbons via Self-Assembly for Supercapacitors.

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