In this study, α Borophene as a two-dimensional nanomaterial was prepared via a facile and low-cost ultrasonic exfoliation. Zeta potential profile showed that the prepared α borophene has sufficient electrostatic repulsion to achieve good physical stability. Randomly grown Polyaniline (PANI): α borophene nano network electrode was prepared on Ni foam substrate. Electrochemical performance of PANI: α borophene was investigated. The electrochemical measurements reveal that the specific capacitance of the PANI: α borophene electrode was 960 Fg^-1 with the capacitance retention of 95% after 1000 cycles. α Borophene enhanced the capacitive performance of PANI. PANI: α borophene is a promising material with high specific capacity and good stability for supercapacitors.

在这项研究中，α Borophene 作为一种二维纳米材料是通过简单和低成本的超声波剥离制备的。Zeta 电位曲线表明制备的 α 硼烯具有足够的静电排斥力以实现良好的物理稳定性。随机生长的聚苯胺（PANI）：在泡沫镍基材上制备α硼烯纳米网络电极。PANI的电化学性能：研究了α硼烯。电化学测量表明，PANI: α 硼烯电极的比电容为 960 Fg^-11000 次循环后电容保持率为 95%。α Borophene 增强了 PANI 的电容性能。PANI：α硼烯是一种很有前途的材料，具有高比容量和良好的超级电容器稳定性。