▎ 摘　　要

An electrochemical exfoliation method adopted in this study presents the variations quality of GO produced under different applied voltages. The GOs production was characterized using FESEM, AFM, micro-Raman, FTIR, and UV-Vis spectroscopies. Further characterizations were done using I-V, C-V, mechanical, and TGA analysis. As evident, GOs at 10 V shows the highest quality and several thin GO layers produced with moderate crystallinity of 0.91. In this study, GOs filled in the nanocomposites synthesized at 5 to 10 V shows higher electrical conductivity and acceptable capacitance performance at approximate similar to x 10(-5) to x 10(-7) s cm(-1) and up to 2.5-103 F g(-1), respectively. These thin films paved the way and great potential to be implemented as flexible electrodes materials in supercapacitor application.