Development and validation of diffusive gradients in thin-films for in situ monitoring of ionic liquids in waters.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-24 DOI:10.1039/d4ay01730g

Si-Si Liu, Shi-Bao Chen, Yu-Bo Yue, Xiao-Hao Li, Chi Zhang, Guang-Guo Ying, Chang-Er Chen

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Abstract

Due to their wide applications, occurrence and "PFAS-like" environmental behaviors, ionic liquids (ILs) represent a new challenge for the environmental monitoring community, who require robust analytical methods that can determine accurately and efficiently their environmentally relevant concentrations. A new passive sampling method based on the diffusive gradients in thin films (DGT) technique was developed for the measurement of imidazole-based ILs in waters using a mixed-mode cation exchange (MCX) resin as the adsorbent. The selected binding gel had a high binding capacity (>170 μg per disc) for ILs. Diffusion coefficients measured using a diffusion cell correlated well with alkyl chain lengths (r² = 0.95) and retention times (r² = 0.88), providing a simple and rapid prediction approach for other ILs. The assembled MCX-DGT sampler exhibited a linear accumulation for at least 120 h. MCX-DGT also showed good performance under typical freshwater conditions (pH 5-8, ionic strength 0.001-0.01 M, and humic acid 0-5 mg L^-1), while still being problematic for aquatic conditions with higher ionic strength (>0.1 M) or DOM (>10 mg L^-1). Laboratory deployment (for up to 3 days) in spiked natural freshwater (SNW) resulted in linear mass uptakes for the short-chain ILs (C2-C8), and their DGT-measured concentrations agreed well with solution concentrations. However, MCX-DGT significantly overestimated the concentrations of the long-chain ILs (C10-C12) when deployed in SNW for one day or more, which is attributed to the strong competitive adsorption of the long-chain ILs by natural organic matter. In situ field evaluation along with grab sampling found no target ILs in a wastewater treatment plant and its receiving river, implying that these new chemicals might not be widely used in South China now. This is the first report on the DGT technique for ILs and might provide an effective tool for monitoring short chain length ILs in the aquatic environment in the near future.

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开发和验证用于原位监测水中离子液体的薄膜扩散梯度。

由于离子液体（ILs）的广泛应用、发生率和 "类似全氟辛烷磺酸 "的环境行为，离子液体（ILs）对环境监测界提出了新的挑战，环境监测界需要能够准确、高效地测定其环境相关浓度的可靠分析方法。本研究开发了一种基于薄膜扩散梯度（DGT）技术的新型被动采样方法，利用混合模式阳离子交换（MCX）树脂作为吸附剂来测量水体中的咪唑类离子液体。所选的结合凝胶对 ILs 具有很高的结合能力（每片大于 170 微克）。使用扩散池测量的扩散系数与烷基链长度（r2 = 0.95）和保留时间（r2 = 0.88）有很好的相关性，为其他 IL 提供了一种简单快速的预测方法。MCX-DGT 在典型的淡水条件（pH 值 5-8、离子强度 0.001-0.01 M、腐殖酸 0-5 mg L-1）下也表现出良好的性能，但在离子强度（>0.1 M）或 DOM（>10 mg L-1）更高的水生条件下仍存在问题。在加标天然淡水（SNW）中进行实验室部署（长达 3 天）后，短链 ILs（C2-C8）的质量吸收呈线性关系，其 DGT 测量浓度与溶液浓度非常吻合。然而，当 MCX-DGT 在天然水中放置一天或更长时间时，其对长链惰性气体（C10-C12）的浓度估计明显偏高，这是因为天然有机物对长链惰性气体有很强的竞争性吸附作用。原位现场评估和抓斗取样在一个污水处理厂及其受纳河流中未发现目标ILs，这意味着这些新化学物质目前可能并未在华南地区广泛使用。这是第一份关于惰性烷烃 DGT 技术的报告，它可能会在不久的将来为监测水生环境中的短链惰性烷烃提供一种有效的工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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