Tandel Ameya Manoj, Agarwal Manas, Deng Erda, Zhu Lingxiang, Friedman Kaleb, Yu Miao, Cheng Chong, Lin Haiqing
Department of Chemical and Biological Engineering, University at Buffalo, The State University of New York, Buffalo, NY, 14260, USA.
Department of Energy, National Energy Technology Laboratory, 626 Cochrans Mill Road, P.O. Box 10940, Pittsburgh, PA, 15236, USA.
Small. 2024 Nov;20(48):e2403620. doi: 10.1002/smll.202403620. Epub 2024 Sep 2.
2D nanosheets such as graphene oxide (GO) can be stacked to construct membranes with fine-tuned nanochannels to achieve molecular sieving ability. These membranes are often thin to achieve high water permeance, but their fabrication with consistent nanostructures on a large scale presents an enormous challenge. Herein, GO-based hollow fiber membranes (HFMs) are developed for dye desalination by synergistically combining chemical etching to form in-plane nanopores (10-30 nm) to increase water permeance and polyamine functionalization to improve underwater stability and enable facile large-scale production using existing membrane manufacturing processes. HFM modules with areas of 88 cm and GO layer thicknesses of ≈500 nm are fabricated, and they exhibited a stable dye water permeance of 75 L m h bar, rejection of >99.5% for Direct red and Congo red, and NaSO/dye separation factor of 300-500, superior to state-of-the-art commercial membranes. The versatility of this approach is also demonstrated using different short polyamines and porous substrates. This study reveals a scalable way of designing 2D materials into high-performance robust membranes for practical applications.
二维纳米片(如氧化石墨烯,GO)可以堆叠以构建具有微调纳米通道的膜,从而实现分子筛分能力。这些膜通常很薄以实现高水渗透率,但在大规模上制造具有一致纳米结构的膜面临巨大挑战。在此,通过协同结合化学蚀刻以形成平面内纳米孔(10 - 30纳米)来提高水渗透率,并进行多胺功能化以改善水下稳定性,并利用现有的膜制造工艺实现便捷的大规模生产,从而开发出用于染料脱盐的基于GO的中空纤维膜(HFM)。制备了面积为88平方厘米且GO层厚度约为500纳米的HFM组件,它们表现出稳定的染料水渗透率为75升·平方米·小时·巴,对直接红和刚果红的截留率>99.5%,以及NaSO/染料分离因子为300 - 500,优于最先进的商业膜。使用不同的短链多胺和多孔基材也证明了这种方法的通用性。这项研究揭示了一种将二维材料设计成用于实际应用的高性能坚固膜的可扩展方法。
