State Key Laboratory of Advanced Welding and Joining , Harbin Institute of Technology , Harbin 150001 , China.
ACS Appl Mater Interfaces. 2018 Nov 14;10(45):38963-38969. doi: 10.1021/acsami.8b14109. Epub 2018 Nov 5.
Carbon nanomaterials have been widely used to enhance the performance of MnO-based supercapacitors. However, it still remains a challenge to directly fabricate high combining strength, mesostructured and high-performance MnO/carbon nanotube (CNT)-nanostructured composite electrodes with a little weight percentage of carbon materials. Here, we report a novel mesostructured composite of the CNT-on-MnO nanosheet with a high MnO percentage, which consists of vertically aligned MnO nanosheets with nanopores and in situ formed oriented CNTs on MnO nanosheets (tube-on-sheet). The optimized CNTs/MnO possesses favorable features, namely, vertically aligned nanosheets to shorted ion diffusion path, a hierarchical porous structure for increased specific surface areas and active sites, and in situ formed CNTs for enhanced conductivity and robust structural stability. It is found that the unique tube-on-sheet CNTs/MnO nanocomposites with the high MnO percentage (>90 wt %) exhibit a high specific capacity of 1131 F g based on total electrodes and 1229 F g based on MnO at a current density of 1 A g, high rate capability, and ultrastable cycling life (94.4%@10 000 cycles). This electrode design strategy in this paper demonstrates a new way for high-performance electrodes for supercapacitors with high active material percentage.
碳纳米材料已被广泛用于提高基于 MnO 的超级电容器的性能。然而,仍然存在一个挑战,即如何直接制造具有高结合强度、介孔结构和高性能的 MnO/碳纳米管 (CNT)-纳米结构复合电极,且其碳材料的重量百分比要小。在这里,我们报告了一种新型的 CNT-on-MnO 纳米片的介孔复合结构,其中 MnO 的百分比很高,它由具有纳米孔的垂直排列的 MnO 纳米片和在 MnO 纳米片上原位形成的取向 CNT 组成(管在片上)。优化后的 CNTs/MnO 具有有利的特性,即垂直排列的纳米片缩短了离子扩散路径、分层多孔结构增加了比表面积和活性位点,以及原位形成的 CNT 提高了导电性和稳健的结构稳定性。结果发现,具有高 MnO 百分比(>90wt%)的独特的管在片 CNTs/MnO 纳米复合材料在 1 A g 的电流密度下表现出 1131 F g 的高比容量(基于总电极)和 1229 F g 的比容量(基于 MnO),具有高倍率性能和超稳定的循环寿命(94.4%@10000 次循环)。本文中的这种电极设计策略为高活性材料百分比的超级电容器高性能电极提供了一种新途径。
