Nowadays, it is highly desirable to achieve high strength, flexibility and electrochemical performance for supercapacitor electrodes simultaneously. Herein, few-layer MXene flakes are assembled into free-standing films by facile vacuum-filtration method, in which hydrophilic-functionalized carbon nanotubes (CNTs) are further incorporated. The morphology of MXene/CNT composite films evolves from compact to 'CNT in MXene' to laminar to 'MXene in CNT' and finally to separate structures when increasing the CNT weight percentage. Among them, the laminar structure in which thin MXene and CNT layers are stacked alternately is demonstrated to be the best. The laminar MXene/CNT film possesses much higher strength, elongation and specific capacitance than MXene film due to the engineered porosity, good interaction between MXene flakes and CNTs, and proper CNTs' distribution. As a result, high specific capacitance of 423.4 F g(-1) at 1 A g(-1) and capacitance retention of nearly 60 at 10 A g(-1) are accomplished. Moreover, the composite film is flexible and withstands bending up to 180 degrees, indicating that the proposed laminar MXene/CNT composite film is a superb candidate for flexible supercapacitors.
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机译:如今,超级电容器电极同时具有高强度、柔韧性和电化学性能是非常需要的。本文通过简单的真空过滤方法将少层MXene薄片组装成独立的薄膜,其中进一步掺入亲水功能化碳纳米管(CNTs)。MXene/CNT复合膜的形貌从致密到“MXene中的CNT”,再到层状到“MXene中的MXene”,最后随着CNT重量百分比的增加,形成分离结构。其中,MXene和CNT薄层交替堆叠的层状结构被证明是最好的。层状MXene/CNT薄膜具有比MXene薄膜高得多的强度、伸长率和比电容,这是由于工程孔隙率、MXene薄片与CNTs之间的良好相互作用以及CNTs的适当分布。因此,在1 A g(-1)时实现了423.4 F g(-1)的高比电容,在10 A g(-1)时实现了近60%的电容保持率。此外,该复合薄膜具有柔韧性,可承受高达180度的弯曲,表明所提出的层状MXene/CNT复合薄膜是柔性超级电容器的绝佳候选者。
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