分析测试学报
分析測試學報
분석측시학보
JOURNAL OF INSTRUMENTAL ANALYSIS
2010年
3期
272-275
,共4页
周福林%宋少飞%弓巧娟%张稳婵%王天娇
週福林%宋少飛%弓巧娟%張穩嬋%王天嬌
주복림%송소비%궁교연%장은선%왕천교
催化氧化%荧光光度法%叶酸%蔬菜
催化氧化%熒光光度法%葉痠%蔬菜
최화양화%형광광도법%협산%소채
catalytic oxidation%fluorometry%folic acid%vegetable
建立了催化氧化荧光法间接测定叶酸的新方法.在pH 5.0的HAc-NaAc缓冲溶液中,Co~(2+)催化KIO_4氧化叶酸产生强荧光,以262 nm为激发波长,在445 nm处测定叶酸的氧化产物蝶呤-6-羧酸的荧光强度,研究了反应的适宜条件及动力学参数,并探讨了反应机理.在优化实验条件下,叶酸浓度在1.0×10~(-8) ~1.0×10~(-5) mol/L范围内与荧光强度呈良好线性关系,回归方程为ΔI_F=10.82c(μmol/L)+2.867,相关系数r=0.998 5,方法的检出限为5×10~(-9) mol/L.对5×10~(-7) mol/L叶酸标准溶液进行11次平行测定,相对标准偏差(RSD)为0.1%.该法使用Co~(2+)为催化剂,大大提高了方法的灵敏度.方法用于蔬菜中叶酸的测定,加标回收率为93% ~104%,6次测定的相对标准偏差为0.98% ~2.1%,结果令人满意.
建立瞭催化氧化熒光法間接測定葉痠的新方法.在pH 5.0的HAc-NaAc緩遲溶液中,Co~(2+)催化KIO_4氧化葉痠產生彊熒光,以262 nm為激髮波長,在445 nm處測定葉痠的氧化產物蝶呤-6-羧痠的熒光彊度,研究瞭反應的適宜條件及動力學參數,併探討瞭反應機理.在優化實驗條件下,葉痠濃度在1.0×10~(-8) ~1.0×10~(-5) mol/L範圍內與熒光彊度呈良好線性關繫,迴歸方程為ΔI_F=10.82c(μmol/L)+2.867,相關繫數r=0.998 5,方法的檢齣限為5×10~(-9) mol/L.對5×10~(-7) mol/L葉痠標準溶液進行11次平行測定,相對標準偏差(RSD)為0.1%.該法使用Co~(2+)為催化劑,大大提高瞭方法的靈敏度.方法用于蔬菜中葉痠的測定,加標迴收率為93% ~104%,6次測定的相對標準偏差為0.98% ~2.1%,結果令人滿意.
건립료최화양화형광법간접측정협산적신방법.재pH 5.0적HAc-NaAc완충용액중,Co~(2+)최화KIO_4양화협산산생강형광,이262 nm위격발파장,재445 nm처측정협산적양화산물접령-6-최산적형광강도,연구료반응적괄의조건급동역학삼수,병탐토료반응궤리.재우화실험조건하,협산농도재1.0×10~(-8) ~1.0×10~(-5) mol/L범위내여형광강도정량호선성관계,회귀방정위ΔI_F=10.82c(μmol/L)+2.867,상관계수r=0.998 5,방법적검출한위5×10~(-9) mol/L.대5×10~(-7) mol/L협산표준용액진행11차평행측정,상대표준편차(RSD)위0.1%.해법사용Co~(2+)위최화제,대대제고료방법적령민도.방법용우소채중협산적측정,가표회수솔위93% ~104%,6차측정적상대표준편차위0.98% ~2.1%,결과령인만의.
Based on the catalytic effect of cobalt(Ⅱ) on the oxidation of folic acid by high potassium iodate in pH 5.0 HAc-NaAc buffer solution.A new catalytic oxidation fluorometric method for indirectly determination of folic acid was proposed.The amount of folic acid was obtained by determining the fluorescence intensity of pterin-6-carboxylic acid,the oxidation product of folic acid,at exciting wavelength of 262 nm and measuring wavelength of 445 nm.The optimum reaction conditions and kinetic parameters of this reaction were investigated,and the reaction mechanism was studied.Under the optimal conditions,the folic acid concentration within a range of 1.0×10~(-8)-1.0×10~(-5) mol/L had a good linear relation,the regression equation was ΔI_F =10.82c(μmol/L)+2.867 with a correlation coefficient of 0.998 5.The detection limit of method was 5×10~(-9) mol/L,and the relative standard deviation(RSD,n=11) for 5×10~(-7) mol/L folic acid was 0.1%.The developed method with cobalt(Ⅱ) as catalyst,showed high sensitivity,and was applied for the detection of folic acid in vegetable with spiked recoveries of 93%-104%,and RSDs of 0.98%-2.1%.
