| 光谱学与光谱分析 |
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| Indirect Study of Zinc-Cystine Complex Reaction by FAAS |
| LIU Wen-han1,WU Xiao-qiong1,CHEN Dan1,XIAO Shan-mei2 |
1. College of Chemical Engineering, Zhejiang University of Technology, Hangzhou 310032, China
2. Jinhua College of Profession & Technology, Jinhua 321017, China |
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Abstract Each state of cystine and zinc ion in aqueous solution under different pH conditions was calculated by computer, and the scatter diagram was given. Under the influence of solution pH, the mechanism of complex reaction in indirectly determining cystine by flame atomic absorption spectrometry with ZnS was studied. The soluble complex ion is composed of 0 valence cystine Cys-Cys+-,-1 valence cystine Cys-Cys+- and -2 valence cystine Cys-Cys2- with Zn(OH)2. The theoretical analysis from computing and scatter diagram dovetail very well with the data determined from the experiments. The structure of soluble zinc-cystine complex ion is, [(COO-)CH(NH+3)CH2S—SCH2CH(NH+3)COO-]Zn(OH)2, [(COO-)CH(NH+3)CH2S—SCH2CH(NH2)COO-]Zn(OH)2 and [(COO-)CH(NH2)CH2S—SCH2CH(NH2)COO-]Zn(OH)2.
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Received: 2006-10-28
Accepted: 2007-01-09
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Corresponding Authors:
LIU Wen-han
E-mail: liuwh@mail.hz.zj.cn
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[1] LIU Wen-han, ZHANG Qing-xin, ZHANG Qing-yi, et al(刘文涵, 章庆新, 张清义,等). Journal of Instrumental Analysis(分析测试学报),2003,22(4): 58.
[2] LIU Wen-han, SHAN Wei-guang, GAO Yun-fang, et al(刘文涵, 单伟光, 高云芳,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2003,23(6): 1191.
[3] LIU Wen-han, ZHANG Dan, LI Zu-guang, et al(刘文涵, 张 丹, 李祖光, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2005,25(6): 968.
[4] LIU Wen-han, ZHANG Dan, ZHENG Jian-zhen, et al(刘文涵, 张 丹, 郑建珍, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(1): 147.
[5] LIU Wen-han, SHAN Sheng-yan, ZHANG Dan, et al(刘文涵, 单胜艳, 张 丹, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2005,25(10): 1717.
[6] LIU Wen-han,WU Xiao-qiong,ZHENG Jian-zhen,et al(刘文涵,吴小琼,郑建珍,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2007,27(1): 180.
[7] Dean Ed J A. Lange’s Handbook of Chemistry, Thirteenth Edition, McGraw-Hill Book Company, 1985. 5.
[8] David R Lide, ed., CRC Handbook of Chemistry and Physics, Internet Version 2005, <http://www.hbcpnetbase.com>,CRC Press, Boca Raton, FL,2005: 8-14 “Dissociation Constants of Organic Acids and Bases”.
[9] Group of Analysis Chemistry of University of Hangzhou(杭州大学化学系分析化学教研室编). Handbook of Analysis Chemistry(Chemsitry)(分析化学手册·第一分册化学分册), the Second Edition(第2版). Chemistry Industry Publishing House(化学工业出版社), 1997. 148. |
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