广东微量元素科学
廣東微量元素科學
엄동미량원소과학
GUANGDONG TRACE ELEMENTS SCIENCE
2014年
11期
37-40
,共4页
原子吸收法%离子选择电极%氟化物
原子吸收法%離子選擇電極%氟化物
원자흡수법%리자선택전겁%불화물
HR-CS-AAS%ISE%fluorine
目的:比较高分辨率连续光源原子吸收法(HR-CS-AAS)和离子选择电极法(ISE)测定水中氟化物。方法用离子选择电极和高分辨率连续光源原子吸收分别测定水样及进行加标回收实验,比较两者的检测限、精密度、准确度等指标。并采用配对t检验检查两种方法测定水中氟的结果是否有显著差异。结果离子选择电极检测限为0.10 mg/L; RSD为2.23%~4.32%;加标回收率为96.0%~104.0%。原子吸收法检测限为0.04 mg/L; RSD为1.7%~3.6%;加标回收率为96.5%~106.0%。离子选择电极和原子吸收法同时测定24份实际水样,测定结果进行配对t检验,结果表明,两法测定水中氟无显著差异。结论高分辨率连续光源原子吸收法可用于测定水中氟,适合大批量样品测定的特点。
目的:比較高分辨率連續光源原子吸收法(HR-CS-AAS)和離子選擇電極法(ISE)測定水中氟化物。方法用離子選擇電極和高分辨率連續光源原子吸收分彆測定水樣及進行加標迴收實驗,比較兩者的檢測限、精密度、準確度等指標。併採用配對t檢驗檢查兩種方法測定水中氟的結果是否有顯著差異。結果離子選擇電極檢測限為0.10 mg/L; RSD為2.23%~4.32%;加標迴收率為96.0%~104.0%。原子吸收法檢測限為0.04 mg/L; RSD為1.7%~3.6%;加標迴收率為96.5%~106.0%。離子選擇電極和原子吸收法同時測定24份實際水樣,測定結果進行配對t檢驗,結果錶明,兩法測定水中氟無顯著差異。結論高分辨率連續光源原子吸收法可用于測定水中氟,適閤大批量樣品測定的特點。
목적:비교고분변솔련속광원원자흡수법(HR-CS-AAS)화리자선택전겁법(ISE)측정수중불화물。방법용리자선택전겁화고분변솔련속광원원자흡수분별측정수양급진행가표회수실험,비교량자적검측한、정밀도、준학도등지표。병채용배대t검험검사량충방법측정수중불적결과시부유현저차이。결과리자선택전겁검측한위0.10 mg/L; RSD위2.23%~4.32%;가표회수솔위96.0%~104.0%。원자흡수법검측한위0.04 mg/L; RSD위1.7%~3.6%;가표회수솔위96.5%~106.0%。리자선택전겁화원자흡수법동시측정24빈실제수양,측정결과진행배대t검험,결과표명,량법측정수중불무현저차이。결론고분변솔련속광원원자흡수법가용우측정수중불,괄합대비량양품측정적특점。
Objective To compare the high-resolution continuum source atomic absorption spectrometry ( HR-CS-AAS) method with ion selective electrode ( ISE) method for determination of F -in water. Methods ISE method and HR-CS-AAS method were used separately to test fluoride in water and the characteristics of the two methods were compared .Result In ISE method, the limit of detection was 0.10 mg/L;the RSD was 2.23%~4.32%;the average recovery rate was 96.0%~104.0%.In HR-CS-AAS method , the limit of detection was 0.04 mg/L;the RSD was 1.7%~3.6%;the average recovery rate was 96.5%~106.0%.The fluoride content in 24 water samples was detected using the ISE method and HR-CS-AAS method.The results as matched data were tested with t -test, indicated that there is statistical significance ( P=0.006 1 ) .Conclusion The determination of F -using HR-CS-AAS is suitable for determination of fluoride in water .