Defect Engineering in GO Membranes – Tailoring Size and Oxidation Degree of Nanosheet for Enhanced Pore Channels

Abstract

AbstractGraphene Oxide (GO) membrane has been extensively applied in the field of water purification and membrane separation processes. While the solute molecule transport in GO membranes encompasses interlayer channels, edge defects, and in‐plane crack‐like holes, the significance of edge defects or crack‐like pores in ultrathin membranes is often overlooked. In our study, we focused on the construction of short‐range channel GO membranes with varied defect structures by modulating the transverse size of the porous nanosheets. GO nanosheets with different sizes were procured through high‐energy γ‐irradiation combined with centrifugation. Notably, the large‐sized porous GO nanosheets (L‐pGO) exhibit a consistent structure, and numerous in‐plane defects. In contrast, the smaller counterparts (S‐pGO) present a fewer in‐plane defects. The performance metrics revealed that L‐pGO exhibited a water flux of 849.25 L m−2 h−1 bar−1, while S‐pGO demonstrated nearly 100 % dye rejection capacity. These findings underscore the potential of defect engineering as a powerful strategy to enhance the efficiency of two‐dimensional membranes.