DOI: 10.1016/j.watres.2018.12.033
Scopus记录号: 2-s2.0-85059345090
论文题名: QSAR modelling for predicting adsorption of neutral, cationic, and anionic pharmaceuticals and other neutral compounds to microalgae Chlorella vulgaris in aquatic environment
作者: Cho C.-W. ; Zhao Y. ; Yun Y.-S.
刊名: Water Research
ISSN: 431354
出版年: 2019
起始页码: 288
结束页码: 295
语种: 英语
英文关键词: Adsorption
; Ionic pharmaceuticals
; LFER
; Micropollutants
; Modeling
; Prediction
; QSAR
Scopus关键词: Adsorption
; Algae
; Biological materials
; Escherichia coli
; Forecasting
; Free energy
; Hydrophobicity
; Models
; Negative ions
; Soil testing
; Statistical tests
; Adsorption properties
; Dissolved organic matters
; Gram-negative bacteria
; Hydrophobic interactions
; LFER
; Linear free energy relationships
; Micropollutants
; QSAR
; Computational chemistry
; 1 naphthol
; 4,4' isopropylidenediphenol
; amitriptyline
; anion
; benzyl alcohol
; caffeine
; carbamazepine
; cation
; chlorpromazine
; clomipramine
; desipramine
; diclofenac
; diphenhydramine
; dissolved organic matter
; doxepin
; hydrocortisone
; ibuprofen
; imipramine
; naproxen
; nitrobenzene
; nortriptyline
; phenethyl alcohol
; phthalic acid diethyl ester
; procaine
; propafenone
; propranolol
; quinidine
; thioridazine
; unindexed drug
; verapamil
; adsorption
; anion
; aquatic environment
; cation
; coliform bacterium
; drug
; environmental fate
; green alga
; hydrophobicity
; model validation
; pollutant removal
; prediction
; software
; adsorption
; aquatic environment
; Article
; Chlorella vulgaris
; environmental impact
; Escherichia coli
; force
; hydrogen bond
; hydrophobicity
; microalga
; molecular interaction
; molecular size
; nonhuman
; priority journal
; quantitative structure activity relation
; surface area
; theoretical model
; validation study
; water pollutant
; Chlorella vulgaris
; Escherichia coli
; Negibacteria
英文摘要: Environmental fate or transport of pharmaceutical waste depends on the adsorptive interactions of pharmaceuticals with various environmental phases e.g. soil, sediment, microalgae, and bacteria etc. Therefore, it is important to understand these adsorptive interactions. As part of the study, we studied the adsorptive interaction of 30 chemicals with microalgae, i.e. Chlorella vulgaris, because it is ubiquitous and its surface area occupies a high proportion in aquatic environments. For this study, isotherms between C. vulgaris and 30 micropollutants in neutral and ionic forms (i.e. 15 cations, 5 anions, and 10 neutrals) were experimentally measured, and their adsorptive affinities were then theoretically predicted based on the concept of the linear free energy relationship. For modeling, the dataset was divided into a training set and a test set, where the training set was used for model development and the test set was performed for model validation. This process was repeated ten times. Finally, we suggested one model which has high predictability in R2 of 0.96 and standard error (SE) of 0.17 log unit for the training set, R2 of 0.818 and SE = 0.217 log unit for the test set, and R2 of 0.926 and SE of 0.169 log unit for the total dataset. Moreover, it was found that dispersive force, H-bond basicity, molecular volume, and electrostatic interaction of anion significantly contribute to the model developed based on the entire dataset. Here, dispersive and hydrophobic interactions (proportional to the magnitude of molecular size) are main attractive forces, while the rest cases are repulsive. In addition, it was found that the adsorption property of the surface of C. vulgaris differs from those of Gram negative bacteria Escherichia coli and dissolved organic matters in an aquatic environment. © 2018 Elsevier Ltd Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/122049
Appears in Collections: 气候变化事实与影响
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作者单位: School of Chemical Engineering, Chonbuk National University, 567 Baekje-dearo, Deokjin-gu, Jeonju, Chonbuk, 54896, South Korea
Recommended Citation:
Cho C.-W.,Zhao Y.,Yun Y.-S.. QSAR modelling for predicting adsorption of neutral, cationic, and anionic pharmaceuticals and other neutral compounds to microalgae Chlorella vulgaris in aquatic environment[J]. Water Research,2019-01-01