分析化学
分析化學
분석화학
CHINESE JOURNAL OF ANALYTICAL CHEMISTRY
2015年
9期
1360-1365
,共6页
母清林%方杰%佘运勇%黄家海%王晓华%朱敏
母清林%方傑%佘運勇%黃傢海%王曉華%硃敏
모청림%방걸%사운용%황가해%왕효화%주민
在线进样%电感耦合等离子体质谱法%海水%重金属元素
在線進樣%電感耦閤等離子體質譜法%海水%重金屬元素
재선진양%전감우합등리자체질보법%해수%중금속원소
On-line injection%Inductively coupled plasma mass spectrometry%Seawater%Heavy metals
建立了一种在线进样技术,包括在线稀释和在线预浓缩两种模式,电感耦合等离子体质谱法( ICP-MS)直接测定海水中Cr, Mo, Cu, Pb, Zn, Cd, Fe, Mn, Ni, V, Co等11种痕量重金属的分析方法。此方法可自动稀释制作标准曲线,自动基体匹配,通过在线稀释及在线预浓缩两种模式,直接分析海水中11种痕量重金属。方法自动化程度高,分析CASS-5和NASS-6海水标样,结果准确。实际海水样品加标回收率范围为80%~115%。海水中11种金属元素的方法定量限(μg/L)分别为0.06(Cr),0.06(Mo),0.01(Cu),0.005(Pb),0.01(Zn),0.006(Cd),0.03(Fe),0.02(Mn),0.01(Ni),0.01(V),0.01(Co)。方法被用于分析浙江沿海不同盐度海水样品重金属分析,分析结果与传统原子吸收方法结果一致。
建立瞭一種在線進樣技術,包括在線稀釋和在線預濃縮兩種模式,電感耦閤等離子體質譜法( ICP-MS)直接測定海水中Cr, Mo, Cu, Pb, Zn, Cd, Fe, Mn, Ni, V, Co等11種痕量重金屬的分析方法。此方法可自動稀釋製作標準麯線,自動基體匹配,通過在線稀釋及在線預濃縮兩種模式,直接分析海水中11種痕量重金屬。方法自動化程度高,分析CASS-5和NASS-6海水標樣,結果準確。實際海水樣品加標迴收率範圍為80%~115%。海水中11種金屬元素的方法定量限(μg/L)分彆為0.06(Cr),0.06(Mo),0.01(Cu),0.005(Pb),0.01(Zn),0.006(Cd),0.03(Fe),0.02(Mn),0.01(Ni),0.01(V),0.01(Co)。方法被用于分析浙江沿海不同鹽度海水樣品重金屬分析,分析結果與傳統原子吸收方法結果一緻。
건립료일충재선진양기술,포괄재선희석화재선예농축량충모식,전감우합등리자체질보법( ICP-MS)직접측정해수중Cr, Mo, Cu, Pb, Zn, Cd, Fe, Mn, Ni, V, Co등11충흔량중금속적분석방법。차방법가자동희석제작표준곡선,자동기체필배,통과재선희석급재선예농축량충모식,직접분석해수중11충흔량중금속。방법자동화정도고,분석CASS-5화NASS-6해수표양,결과준학。실제해수양품가표회수솔범위위80%~115%。해수중11충금속원소적방법정량한(μg/L)분별위0.06(Cr),0.06(Mo),0.01(Cu),0.005(Pb),0.01(Zn),0.006(Cd),0.03(Fe),0.02(Mn),0.01(Ni),0.01(V),0.01(Co)。방법피용우분석절강연해불동염도해수양품중금속분석,분석결과여전통원자흡수방법결과일치。
An analytical method of on-line injection technique including on-line dilution and on-line preconcentration with inductively coupled plasma mass spectrometry ( ICP-MS ) was established for the determination of trace metals in seawater, such as Cr, Mo, Cu, Pb, Zn, Cd, Fe, Mn, Ni, V, Co. This method could automatically make standard curves and match matrix, and by the on-line dilution and preconcentration modes, 11 trace metals could be analyzed directly. With high-level automation, CASS-5 and NASS-6 seawater standard samples were analyzed accurately by this method. The recovery of metals in seawater sample addition was between 80% and 115%. The method quantitation limits (μg/L ) of theses metals in seawater were 0. 06(Cr), 0. 06(Mo), 0. 01(Cu), 0. 005(Pb), 0. 01(Zn), 0. 006(Cd), 0. 03 (Fe), 0. 02(Mn), 0. 01(Ni), 0. 01(V), and 0. 01 (Co), respectively. This method was applied to analyze seawater samples of various salinities in Zhejiang coast, and the analysis results were consistent with results of conventional atomic absorption method.
