离子液体
数量结构-活动关系
生态毒性
化学
环境友好型
烷基
大型水蚤
生化工程
环境化学
分子动力学
有机化学
毒性
偏最小二乘回归
离子键合
稳健性(进化)
组合化学
微生物
计算化学
合理设计
杂原子
抗真菌
鉴定(生物学)
绿色化学
分子描述符
人类健康
生物系统
作者
Fj. Hernández-Fernández,Jesús Hernández-Fernández,L.J. Lozano,Eduardo Iniesta-López,A. Hernández-Fernández,Joaquín Quesada-Medina,Victoria Caballero,A.P de los Ríos
标识
DOI:10.1016/j.etap.2026.104950
摘要
The increasing interest in ionic liquids (ILs) as alternative solvents for biocatalytic and industrial applications is limited by concerns regarding their potential toxicity. In this study, we compiled one of the most comprehensive ecotoxicity datasets to date for Vibrio fischeri, Daphnia magna, and Pseudokirchneriella subcapitata. Using Partial Least Squares (PLS)-based Quantitative Structure-Activity Relationship (QSAR) models, we established predictive correlations between IL structural features and ecotoxicity. The models demonstrated high robustness and predictive power, enabling identification of key molecular descriptors driving toxicity. Results consistently indicate that longer alkyl side chains in cations, higher hydrophobicity, and aromatic ring structures are associated with increased toxicity, whereas the incorporation of heteroatoms (O, OH, CN) or non-aromatic rings reduces toxicity. Anions generally exert a lower influence compared to cations, although certain highly fluorinated species substantially increase toxicity. The comparative analysis across microorganisms highlights both shared and species-specific structural determinants. These findings provide valuable insights into IL toxicity mechanisms, particularly the role of membrane accumulation and disruption, and establish design rules for the development of safer, environmentally benign ionic liquids suitable for green chemistry and biotechnological processes.
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