应用化工
應用化工
응용화공
APPLIED CHEMICAL INDUSTRY
2009年
12期
1817-1819,1821
,共4页
冯伟%吕昌银%蔡颖%唐启超%刘文寅%郭君宇
馮偉%呂昌銀%蔡穎%唐啟超%劉文寅%郭君宇
풍위%려창은%채영%당계초%류문인%곽군우
锰(Ⅶ)%二甲基亚砜(DMSO)%共振光散射(RLS)
錳(Ⅶ)%二甲基亞砜(DMSO)%共振光散射(RLS)
맹(Ⅶ)%이갑기아풍(DMSO)%공진광산사(RLS)
manganese(Ⅶ)%dimethyl sulfoxide (DMSO)%resonance light scattering(RLS)
建立一种环境水样中总锰的共振光散射分析新方法.在pH=6.0的Tris-HCl缓冲溶液中,锰(Ⅶ)氧化二甲基亚砜(DMSO)成为二甲基砜(DMSO_2),生成的Mn~(2+)与DMSO_2结合形成离子缔合物,使体系的共振光散射急聚增强.在优化的实验条件下,在6.3×10~(-9)~7.5×10~(-5)mol/L浓度范围内,体系的△I值与锰(Ⅶ)浓度之间具有良好的线性关系,线性回归方程为△I_(RLS)=-217.3+ 114.7 c (r = 0.999 1);检出限为1.9×10~(-9)mol /L;样品加标回收率为102.3%~106.5%.该法简便,特异,灵敏度高.用于环境水样中总锰的测定,结果满意.
建立一種環境水樣中總錳的共振光散射分析新方法.在pH=6.0的Tris-HCl緩遲溶液中,錳(Ⅶ)氧化二甲基亞砜(DMSO)成為二甲基砜(DMSO_2),生成的Mn~(2+)與DMSO_2結閤形成離子締閤物,使體繫的共振光散射急聚增彊.在優化的實驗條件下,在6.3×10~(-9)~7.5×10~(-5)mol/L濃度範圍內,體繫的△I值與錳(Ⅶ)濃度之間具有良好的線性關繫,線性迴歸方程為△I_(RLS)=-217.3+ 114.7 c (r = 0.999 1);檢齣限為1.9×10~(-9)mol /L;樣品加標迴收率為102.3%~106.5%.該法簡便,特異,靈敏度高.用于環境水樣中總錳的測定,結果滿意.
건립일충배경수양중총맹적공진광산사분석신방법.재pH=6.0적Tris-HCl완충용액중,맹(Ⅶ)양화이갑기아풍(DMSO)성위이갑기풍(DMSO_2),생성적Mn~(2+)여DMSO_2결합형성리자체합물,사체계적공진광산사급취증강.재우화적실험조건하,재6.3×10~(-9)~7.5×10~(-5)mol/L농도범위내,체계적△I치여맹(Ⅶ)농도지간구유량호적선성관계,선성회귀방정위△I_(RLS)=-217.3+ 114.7 c (r = 0.999 1);검출한위1.9×10~(-9)mol /L;양품가표회수솔위102.3%~106.5%.해법간편,특이,령민도고.용우배경수양중총맹적측정,결과만의.
A novel resonance light scattering method was established for the determination of trace total manganese in environmental water.Mn(Ⅶ) oxidates dimethyl sulfoxide(DMSO) to dimethyl sulfone(DMSO_2) at pH=6.0 of Tris-HCl buffer solution,Mn(Ⅱ) could react with dimethyl sulfone to form an ion association complex,so that the system's scattering intensity of RLS is enhanced.Under the optimal experimental conditions,compared to the system's scattering intensity,Mn(Ⅶ) concentration had a good linear relationship in the range of 6.3×10~(-9)~7.5×10~(-5)mol/L,the linear regression equation was △I_(RLS)= -217.3+ 114.7c (r=0.999 1).The detection limit for total manganese was 1.9×10~(-9)mol /L and the sample recoveries were 102.3%~106.5%.The method was simple, specific,sensitive,and the results of determination of total manganese for environmental water samples were satisfactory.