Liu Nishuang, Li Jian, Ma Wenzhen, Liu Weijie, Shi Yuling, Tao Jiayou, Zhang Xianghui, Su Jun, Li Luying, Gao Yihua
Center for Nanoscale Characterization & Devices (CNCD), Wuhan National Laboratory for Optoelectronics (WNLO)-School of Physics, Huazhong University of Science and Technology (HUST) , 1037 Luoyu Road, Wuhan 430074, China.
ACS Appl Mater Interfaces. 2014 Aug 27;6(16):13627-34. doi: 10.1021/am503108x. Epub 2014 Aug 7.
A free-standing binder-free 3D Ni@NiO nanowire membrane is fabricated by a simple filtration method followed by thermal annealing. With an appropriate annealing temperature, the functional nanowires can keep their rough and echinate surface, and the conductive network composed of welded nickel nanowire cores is well-preserved without isolation (0.53 Ω/sq). The unique 3D multigrade mesporous structure not only accelerates the intercalation and deintercalation velocity of electrolyte ions but also provides numerous electroactive sites for the Faraday reaction. As a result, the supercapacitor electrode can preserve a capacitance retention of 96.1% (36.9 F/cm(3)) with a high discharge current density, indicating its wonderful rate capability. The fabricated membrane electrode exhibits high volumetric capacitance, stable cycling life, and remarkable retention of the capacitance at high rate, energy, and power density, making it a promising candidate for application in portable electronic products.
通过简单的过滤方法并随后进行热退火制备了一种独立的无粘结剂3D Ni@NiO纳米线膜。在适当的退火温度下,功能性纳米线可以保持其粗糙且有棘刺的表面,由焊接的镍纳米线芯组成的导电网络得以完好保存且未被隔离(0.53 Ω/sq)。独特的3D多级介孔结构不仅加速了电解质离子的嵌入和脱嵌速度,还为法拉第反应提供了大量的电活性位点。因此,超级电容器电极在高放电电流密度下可保持96.1%(36.9 F/cm³)的电容保持率,表明其具有出色的倍率性能。所制备的膜电极具有高体积电容、稳定的循环寿命以及在高倍率、能量和功率密度下显著的电容保持率,使其成为便携式电子产品应用的有前途的候选材料。
