硒化合物在FI-HG-AAS中的行为

A. Chatterjee, K. Irgolic
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引用次数: 18

摘要

硒酸、硒酸、硒半胱氨酸(Secys)、硒同半胱氨酸(Sehcys)、硒代蛋氨酸(Semet)、硒代蛋氨酸(Seet)、硒代蛋氨酸(Seet)、三甲基硒碘化铵(TmSe)、硒半胱氨酸(Secystha)、硒半胺(Secysta)、硒脲(Seur)、硒胆碱(Sech)、在不同硼氢化钠浓度(0.1%氢氧化钠浓度为0.3%,0.2%氢氧化钠浓度为0.5、0.7和1.0%)的FI-HG体系中,在3 M盐酸存在下,利用原子吸收光谱仪作为硒特异性检测器,研究了二甲基(3-氨基-3-羧基-1-丙基)碘化硒(DmpSe)。selenic acid、Secys、Sehcys、Semet、Seet、TmSe、Secystha中亚硒酸的回收率;在0.3%硼氢化物和0.1%氢氧化钠稳定作用下,Secysta、Seur、Sech和DmpSe分别为0、10.3、19.7、23.5、32.4、13.7、16.5、16.5、11.3、5.6和7.7%。通过增加硼氢化物浓度,提高了TmSe、DmpSe、Sech、Sehcys和Secysta的回收率,降低了Semet、Seet和Seur的回收率。然而,在整个硼氢化物范围内,Secys和Secystha的回收率几乎保持一致。当硼氢化物浓度为1.0%时,TmSe对亚硒酸的回收率为105%,而亚硒酸对硼氢化物活性挥发性化合物的形成是惰性的。
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Behaviour of selenium compounds in FI-HG-AAS
The borohydride active volatile compound formation potential of twelve selenium compounds [selenous acid, selenic acid, selenocystine (Secys), selenohomocystine (Sehcys), selenomethionine (Semet), selenoethionine (Seet), trimethylselenonium iodide (TmSe), selenocystathionine (Secystha), selenocystamine (Secysta), selenourea (Seur), selenocholine (Sech), and dimethyl(3-amino-3- carboxy-1-propyl)selenonium iodide (DmpSe)] were investigated in a FI-HG system with different sodium borohydride concentrations (0.3% in 0.1% sodium hydroxide, and 0.5, 0.7, and 1.0% in 0.2% sodium hydroxide) in the presence of 3 M hydrochloric acid using an atomic absorption spectrometer as selenium-specific detector. Percentage recoveries with respect to selenous acid of selenic acid, Secys, Sehcys, Semet, Seet, TmSe, Secystha; Secysta, Seur, Sech, and DmpSe were 0, 10.3, 19.7, 23.5, 32.4, 13.7, 16.5, 16.5, 11.3, 5.6 and 7.7%, respectively in the presence of 0.3% borohydride stabilized with 0.1% sodium hydroxide. By multiplying the borohydride concentrations, percentage recoveries of TmSe, DmpSe, Sech, Sehcys and Secysta were elevated, whereas those of Semet, Seet and Seur were reduced. However, percentage recoveries of Secys and Secystha remained almost uniform within the entire borohydride range. TmSe exhibited a 105% recovery with respect to selenous acid at 1.0% borohydride concentration, whereas selenic acid was inert to borohydride active volatile compound formation.
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