铬天青S光吸收比差法测定环境水样中痕量铝

doi:10.13228/j.boyuan.issn1000-7571.012457

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摘要测定生活用水中痕量Al(Ⅲ),对提高人们的生活质量和身体健康具有重要意义。在pH 6.80的HAc-NaAc缓冲介质中,Al(Ⅲ)与铬天青S(CAS)形成二元配合物,通过光谱修正技术表征分析和CAS表面静电势理论计算Al(Ⅲ)与CAS形成配合物的分子结构为[Al(CAS)₂(OH)₂]^4-,以配合物光谱中峰谷波长566 nm和422 nm为工作波长,测定显色溶液及空白溶液的吸光度,并计算Al(Ⅲ)-CAS配合物的光吸收比差值(ΔA_r),建立了光吸收比差法测定痕量铝的方法。当Al(Ⅲ)质量浓度为0~0.20 μg/mL时,Al(Ⅲ)质量浓度与ΔA_r值之间具有良好的线性关系;方法的检出限为0.59 μg/L。采用实验方法对广东第二师范学院花都校区自来水和天马河水中痕量Al(Ⅲ)进行测定,其结果与电感耦合等离子体质谱法(ICP-MS)的测定结果基本一致,相对标准偏差(RSD,n=7)在0.90%~2.7%之间。

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	陈佳惠
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	张国平

关键词 ：光谱修正技术, 表面静电势分析, 光吸收比差法, 铝, 铬天青S(CAS)

Abstract：The determination of trace amounts of Al (Ⅲ) in domestic water is of great significance for improving the people's quality of life and physical health. In the Hac-NaAc buffer medium at pH 6.80, chromazurine S (CAS) could form a binary complex with Al (Ⅲ). Based on the spectral correction characterization analysis and surface electrostatic potential theory of CAS, the molecular structure of the complex formed by Al (Ⅲ) and CAS was [Al(CAS)₂(OH)₂]^4-. The absorbance of coloring solution and blank solution was measured using the peak-valley wavelengths of complex as the working wavelength, i.e., 566 nm and 422 nm. The absorbance difference (ΔA_r) of the Al-CAS (Ⅲ) complex was calculated. The determination method for the trace aluminum by light-absorption ratio variation was established. When the mass concentration of Al (Ⅲ) was in range of 0-0.20 μg/mL, there was a good linear relationship between the mass concentration of Al (Ⅲ) and the value of ΔA_r. The limit of detection of method was 0.59 μg/L. The experimental method was used to determine the trace amounts of Al (Ⅲ) in tap water and Tianma River water at the Huadu Campus of Guangdong Second Normal University. The found results were consistent with those obtained by inductively coupled plasma mass spectrometry (ICP-MS). The relative standard deviations (RSD, n=7) were between 0.90% and 2.7%.

Key words： spectral correction technology surface electrostatic potential analysis light-absorption ratio variation aluminum chromazurine S (CAS)

收稿日期: 2024-01-26

ZTFLH:

O657.32

基金资助:广东第二师范学院大学生创新创业项目(202414278004);广东省普通高校重点领域专项(科技服务乡村振兴:2021ZDZX4063);广东第二师范学院污水处理与监测团队;广东第二师范学院校企合作横向项目(广东二师合D021J256号)

通讯作者: 赵丹华(1978-),女,教授,博士,研究方向为光化学分析,环境功能材料设计、制备及应用; E-mail:zhaodanhua@gdei.edu.cn

作者简介: 陈佳惠(2003-),女,本科生,研究方向为光化学分析方法;E-mail:2098036078@qq.com

引用本文:

陈佳惠, 茹钰茵, 简惠娣, 邱燕璇, 赵丹华, 张国平. 铬天青S光吸收比差法测定环境水样中痕量铝[J]. 冶金分析, 2024, 44(8): 41-47. CHEN Jiahui, RU Yuyin, JIAN Huidi, QIU Yanxuan, ZHAO Danhua, ZHANG Guoping. Determination of trace aluminum in environment water by light-absorption ratio variation with chromazurine S. , 2024, 44(8): 41-47.

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[1] 徐玲萍,刘秀群,张芳芳,等.高效测定淀粉制品中铝含量的分光光度法[J].中国食品添加剂,2019,30(11): 173-177.
XU Lingping,LIU Xiuqun,ZHANG Fangfang,et al.The spectrophotometry methods of more efficiently detecting aluminum in the starch product[J].China Food Additives,2019,30(11):173-177.
[2] 简彦涛,耿慧,史慧文.水文地质水体重金属污染现状及治理措施[J].世界有色金属,2020(17):194-195.
JIAN Yantao,GENG Hui,SHI Huiwen.Current situation and control measures of heavy metal pollution in hydrogeological water body[J].World Nonferrous Metals,2020(17):194-195.
[3] Zhang Liuyang,Luo Jinju,Shen Xinyu,et al.Quantitative determining of ultra-trace aluminum ion in environmental samples by liquid phase microextraction assisted anodic stripping voltammetry[J].Sensors,2018,18(5):1503.
[4] 李娜,李政,王树军,等.一种基于香豆素的荧光探针的合成及其对铝离子和锌离子的识别[J].分析试验室,2023,42(10):1311-1316.
LI Na,LI Zheng,WANG Shujun,et al.Synthesis and properties of a coumarin-based fluorescent probe for the detection of Al³⁺ and Zn²⁺[J].Chinese Journal of Analysis Laboratory,2023,42(10):1311-1316.
[5] 薛宁.电感耦合等离子体原子发射光谱法测定镓铝合金中铝[J].冶金分析,2023,43(2):54-58.
XUE Ning.Determination of aluminum in gallium-aluminum alloy by inductively coupled plasma atomic emission spectrometry[J].Metallurgical Analysis,2023,43(2):54-58.
[6] Makarishcheva D D,Kolesnikova O N,Tregubova V E,et al.Development of a quantitative determination method for aluminum ions in adsorbed drugs using atomic absorption spectrometry with electrothermal atomization[J].Pharmaceutical Chemisty Journal,2022,56:527-531.
[7] Schlemmer G,Welz B.Palladium and magnesium nitrates, a more universal modifier for graphite furnace atomic absorption spectrometry[J].Spectrochimica Acta Part B:Atomic Spectroscopy,1986,41(11):1157-1165.
[8] 刘宪彬,张各各,张吉强,等.铬天青S分光光度法测定锰铁合金、锰硅合金、金属锰中铝[J].冶金分析,2020,40(1):75-81
LIU Xianbin,ZHANG Gege,ZHANG Jiqiang,et al.Determination of aluminum in ferromanganese, ferromanganese-silicon and manganese metal by chrome azurol S spectrophotometry[J].Metallurgical Analysis,2020,40(1):75-81
[9] Zhou T,Feng S,Huang Y,et al.Determination of aluminum in natural waters by flow injection analysis with spectrophotometric detection[J].Analytical Letters,2016,49(11):1669-1680.
[10] 李群,高铝食品中铝含量的检测方法[J].现代食品,2017(3):89-92.
LI Qun.The detection method of aluminum content in high aluminum food[J].Modern Food,2017(3):89-92.
[11] 白淑娟,杨帅.仪器分析法在水质监测中的应用[J].探索科学,2021(2):201.
BAI Shujuan,YANG Shuai.The application of instrumental analysis method in water quality monitoring[J].Explore Science,2021(2):201.
[12] 欧阳振中,白珊,罗道成.光谱修正-光吸收比差法测定镀铜废水中的微量Cu(Ⅱ)[J].材料保护,2015,48(1):62-65.
OUYANG Zhenzhong,BAI Shan,LUO Daocheng.Determination of micro copper(Ⅱ) in copper electro-plating wastewater by spectrophotometric correction approach combined with light-absorptionratio variation method[J].Materials Protection,2015,48(1):62-65.
[13] 汤轶男.水环境微量金属离子高灵敏检测方法与技术[D].上海:同济大学,2008.
[14] Gao H W,Wang H Y,Zhang S Y,et al.Establishment of the light-absorption ratio variation approach and application to determination of Co(Ⅱ) in the ng·ml^-1 level and novel characterization of Co(Ⅱ) and Zn(Ⅱ) complexes with 1,5-di(2-hydroxy-5-sulfophenyl)-3-cyanoformazan[J].New Journal of Chemistry,2003,27(11):1649-1656.
[15] Frisch M J,Trucks G W,Schlegel H B,et al.Gaussian 16[M].Revision A.1. Wallingford:Gaussian Inc.,2009.
[16] Adamo C,Barone V.Exchange functionals with improved long-range behavior and adiabatic connection methods without adjustable parameters: The mPW and mPW1PW models[J].Journal of Chemical Physics,1998,108(2):664-675.
[17] Klein R A, Zottola M A.Pople versus dunning basis-sets for group IA metal hydrides and some other second row hydrides: The case against a De Facto standard[J].Chemical Physics Letters,2006,419(1-3):254-258.
[18] Manzetti S,Lu T.The geometry and electronic structure of aristolochic acid: Possible implications for a frozen resonance[J].Journal of Physical Organic Chemistry,2013,26(6):473-483.
[19] Lu T,Chen F.Multiwfn: A multifunctional wavefunction analyzer[J].Journal of Computational Chemistry,2012,33(5):580-592
[20] Lu T,Chen F.Quantitative analysis of molecular surface based on improved marching tetrahedra algorithm[J].Journal of Molecular Graphics & Modelling,2012,38(Complete):314-323.
[21] Lu T,Manzetti S.Wavefunction and reactivity study of benzo[a]pyrene diol epoxide and its enantiomeric forms[J].Structural Chemistry,2014,25(5):1521-1533.
[22] Zhang J,Lu T.Efficient evaluation of electrostatic potential with computerized optimized code[J].Physical Chemistry Chemical Physics,2021,23(36):20323-20328.
[23] Humphrey W,Dalke A,Schulten K.VMD: Visual molecular dynamics[J].Journal of Molecular Graphics and Modelling,1996,14(1):33-38.
[24] Murray J S,Politzer P.The electrostatic potential: an overview[J].Wiley Interdisciplinary Reviews Computational Molecular Science,2011,1(2):153-163.
[25] Gao H W,Professor,Zhao J F,et al.Non-covalent interaction of 2', 4', 5', 7'-tetrabromo-4, 5, 6, 7-tetrachlorofluorescein with proteins and its application[J].Proteomics,2010,6(19):5140-5151.
[26] 杨晓秋.铝-铬天青S-溴代十六烷基吡啶三元配合物结构的研究[J].辽宁大学学报(自然科学版),1995,22(3):11-15.
YANG Xiaoqiu.Structure of ternary complex of aluminum with chrome azurol S and cetyl pyridinium promide[J].Journal of Liaoning University(Natural Sciences Edition),1995,22(3):11-15.
[27] 谢南容,刘军.ICP-MS法测定生活饮用水中的铝、锰、铁等元素[J].质量安全与检验检测.2021,31(4):28-30.
XIE Nanrong,LIU Jun.Determination of aluminum,manganese and iron in drinking water by ICP-MS[J].Quality Safety Inspection and Testing,2021,31(4):28-30.