冶金分析
冶金分析
야금분석
METALLURGICAL ANALYSIS
2015年
6期
1-7
,共7页
王征%赵学玒%孙传强%汪曣
王徵%趙學玒%孫傳彊%汪曣
왕정%조학강%손전강%왕연
电感耦合等离子体质谱法(ICP-MS)%碰撞/反应池%痕量%铁
電感耦閤等離子體質譜法(ICP-MS)%踫撞/反應池%痕量%鐵
전감우합등리자체질보법(ICP-MS)%팽당/반응지%흔량%철
inductively coupled plasma mass spectrometry(ICP-MS)%collision/reaction cell%trace%iron
电感耦合等离子体质谱法( ICP-MS)在测量痕量铁元素时会受到ArO+多原子离子的严重干扰,碰撞/反应池技术可以有效的去除该干扰。通过对碰撞/反应池工作参数进行探讨,以提高ICP-MS检测铁元素的能力。讨论了NH3、He、H2、N2 O以及He-H2和He-NH3混合气6种四极杆碰撞/反应池气体类型及流速、碰撞/反应池RPq值、碰撞/反应池偏置电压( CRO)及四极杆质量分析器偏置电压( QRO)对ArO+干扰去除效果的影响,获得了优化的碰撞/反应池参数。实验表明:0.3 mL/min NH3-1.3 mL/min He混合气条件下得到的铁元素检出限最低;在不同的气体条件下RPq优化值为0.5;CRO及QRO在碰撞模式下优化值分别为-17 V、-7 V,在反应模式及混合气模式下分别为-1 V、-11 V;在优化条件下铁元素的检出限为14 ng/L。
電感耦閤等離子體質譜法( ICP-MS)在測量痕量鐵元素時會受到ArO+多原子離子的嚴重榦擾,踫撞/反應池技術可以有效的去除該榦擾。通過對踫撞/反應池工作參數進行探討,以提高ICP-MS檢測鐵元素的能力。討論瞭NH3、He、H2、N2 O以及He-H2和He-NH3混閤氣6種四極桿踫撞/反應池氣體類型及流速、踫撞/反應池RPq值、踫撞/反應池偏置電壓( CRO)及四極桿質量分析器偏置電壓( QRO)對ArO+榦擾去除效果的影響,穫得瞭優化的踫撞/反應池參數。實驗錶明:0.3 mL/min NH3-1.3 mL/min He混閤氣條件下得到的鐵元素檢齣限最低;在不同的氣體條件下RPq優化值為0.5;CRO及QRO在踫撞模式下優化值分彆為-17 V、-7 V,在反應模式及混閤氣模式下分彆為-1 V、-11 V;在優化條件下鐵元素的檢齣限為14 ng/L。
전감우합등리자체질보법( ICP-MS)재측량흔량철원소시회수도ArO+다원자리자적엄중간우,팽당/반응지기술가이유효적거제해간우。통과대팽당/반응지공작삼수진행탐토,이제고ICP-MS검측철원소적능력。토론료NH3、He、H2、N2 O이급He-H2화He-NH3혼합기6충사겁간팽당/반응지기체류형급류속、팽당/반응지RPq치、팽당/반응지편치전압( CRO)급사겁간질량분석기편치전압( QRO)대ArO+간우거제효과적영향,획득료우화적팽당/반응지삼수。실험표명:0.3 mL/min NH3-1.3 mL/min He혼합기조건하득도적철원소검출한최저;재불동적기체조건하RPq우화치위0.5;CRO급QRO재팽당모식하우화치분별위-17 V、-7 V,재반응모식급혼합기모식하분별위-1 V、-11 V;재우화조건하철원소적검출한위14 ng/L。
The determination of trace iron by inductively coupled plasma mass spectrometry ( ICP-MS) was seriously interfered by polyatomic ion ArO+. Such interference could be effectively eliminated by the collision/reaction cell technology. In this paper, the working parameters of collision/reaction cell were investigated to improve the detec-tion ablity of iron by ICP-MS. The effect of several experimental factors on the elimination of ArO+interference was discussed, including six types of quadrupole collision/reaction cell gases ( NH3 , He, H2 , N2 O, He-H2 and He-NH3), the flow rate of gas, the collision/reaction cell RPq value, the collision/reaction cell offset (CRO) and quadrupole mass analyzer rod offset ( QRO) . The optimal parameters of collision/reaction cell were obtained. The experimental results indicated that the detection limit of iron was lowest when 0. 3 mL/min NH3-1. 3 mL/min He mixed gas was selected as the collision/reaction cell gas. The optimized RPq value was 0. 5 under different gas con-ditions. The optimized value of CRO and QRO under collision mode were -17 V and -7 V, respectively, and they were-1 V and-11 V respectively both under reaction mode and mixed gas mode. The detection limit of iron under optimized conditions was 14 ng/L.
