Yarn supercapacitors have attracted renewed interest as promising energy storage for wearable devices due to their lightweight, long cycling lifetime and excellent weavability. There has been much effort to fabricate high performance yarn supercapacitor by depositing pseudo-capacitive materials on the outer surface of the carbon fibers. However, a key challenge still remains to achieve high capacitance and high mass loading without sacrificing the cycling stability. Herein, we perform a phase-controlled of MnO2 at various deposition temperatures with ultrahigh mass loading of 11 mg/cm2 on a MWNT sheets and fabricate it to yarn structure to achieve high capacitance without decreasing in the electrochemical performance. The structure of optimized sample (MnO2/CNTs-60, deposition at 60 °C) consists of the composite of primary α-MnO2 nanosheets and secondary γ-MnO2 nanoparticles. The heteronanostructures of MnO2 provide facile ionic and electric transport in the yarn electrode, resulting in improvement of electrochemical performance and cycling stability. The MnO2/CNTs-60 yarn electrode with ultrahigh mass loading delivers a high areal capacitance of 3.54 F/cm2 at 1 mA/cm2 and an excellent rate capability. Finally, the MnO2/CNTs-60 device exhibits an outstanding high areal energy density of 93.8 μWh/cm2 at the power density of 193 μW/cm2, which is superior to previously reported symmetric yarn supercapacitors.
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机译:纱线超级电容器因其轻巧,循环寿命长和出色的可编织性而作为可穿戴设备的有前途的能量存储引起了新的兴趣。已经通过在碳纤维的外表面上沉积伪电容材料来制造高性能的纱线超级电容器。然而,在不牺牲循环稳定性的情况下,实现高电容和高质量负载仍然是关键挑战。本文中,我们在MWNT片材上以11 mg / cm 2 的超高质量负载在各种沉积温度下进行MnO2的相控,并将其制造为纱线结构以实现高电容量而不降低电化学性能性能。优化样品的结构(MnO2 / CNTs-60,在60°C下沉积)由初级α-MnO2纳米片和次级γ-MnO2纳米粒子的复合物组成。 MnO2的异质结构在纱线电极中提供了便捷的离子和电传输,从而改善了电化学性能和循环稳定性。具有超高质量负载的MnO2 / CNTs-60纱线电极在1 mA / cm 2 下可提供3.54 F / cm 2 的高面电容,并具有出色的倍率性能。最终,MnO2 / CNTs-60器件在193μW/ cm 2 的功率密度下具有93.8μWh/ cm 2 的出色的高面能量密度,这是卓越的以前报道过的对称纱线超级电容器。
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