取向问题:用石英晶体微天平测量聚酰胺膜的正确表面

IF 4.9 Q1 ENGINEERING, CHEMICAL Journal of Membrane Science Letters Pub Date : 2023-06-10 DOI:10.1016/j.memlet.2023.100048
Luis Francisco Villalobos , Kevin E. Pataroque , Weiyi Pan , Tianchi Cao , Masashi Kaneda , Camille Violet , Cody L. Ritt , Eric M.V. Hoek , Menachem Elimelech
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引用次数: 0

摘要

聚酰胺反渗透(RO)膜的表面是操作过程中面对进料的表面,它调节界面主导的现象,如分配和结垢。然而,由于最先进的转移方法的限制,聚酰胺选择层的相对表面,即面向渗透物并与聚砜多孔载体接触的表面,通常在石英晶体微天平(QCM)测量中进行分析。由于聚酰胺层在化学和形态上是不对称的,因此不能对背面的这种测量进行推广。在此,我们介绍了一种简单的方法,以正确的取向(即暴露其前表面)在QCM传感器上涂覆聚酰胺活性层,并表明界面主导的现象在不同的取向之间存在显著差异。我们首先描述了在任何表面的前表面方向上涂覆聚酰胺层的转移协议。然后,我们系统地分析了商业反渗透膜聚酰胺层两个表面之间的化学和形态差异。最后,我们证明了界面主导的现象取决于取向,表明在pH 6时,NaCl在前表面的分配高1.3至2.3倍,而腐殖酸在该表面的有机污染发生率较低。本文提出的新方法能够对聚酰胺反渗透膜的前表面进行测量,这应该是未来任何QCM研究的标准。
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Orientation matters: Measuring the correct surface of polyamide membranes with quartz crystal microbalance

The surface of polyamide reverse osmosis (RO) membranes which regulates interface-dominated phenomena, such as partitioning and fouling, is the one facing the feed during operation. However, the opposite surface of the polyamide selective layer, the one facing the permeate and in contact with the polysulfone porous support, is commonly analyzed in quartz crystal microbalance (QCM) measurements due to limitations of state-of-the-art transfer methodologies. Such measurements on the back surface cannot be generalized because the polyamide layer is chemically and morphologically asymmetric. Herein, we introduce a simple method to coat QCM sensors with polyamide active layers in the correct orientation (i.e., exposing their front surface) and show that interface-dominated phenomena differ significantly between orientations. We start by describing a transfer protocol to coat any surface with a polyamide layer on its front surface orientation. We then systematically analyze the chemical and morphological differences between the two surfaces of the polyamide layer of a commercial RO membrane. Finally, we demonstrate that interface-dominated phenomena depend on the orientation by showing that NaCl partitioning at pH 6 was 1.3 to 2.3-fold higher on the front surface and that organic fouling with humic acid occurred at a lower rate on this surface. The new method presented herein enables measurements on the front surface of polyamide RO membranes, which should be the standard in any future QCM studies.

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