电感耦合等离子体四极杆质谱碰撞/反应池技术现状与进展

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (3019 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要简要地介绍了电感耦合等离子体四极杆质谱（Inductively Coupled Plasma Quadrupole Mass Spectrometry, ICP-QMS）中碰撞/反应池系统。对各主要仪器厂商（如安捷伦、布鲁克、珀金埃尔默、赛默飞世尔）的ICP-QMS的碰撞/反应池系统进行了归纳，分为如四极杆碰撞/反应模式、多极杆碰撞/反应模式、锥碰撞/反应模式三种类型。分别对不同类型的碰撞/反应池系统的现状与进展进行了详细地评述。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	余兴

关键词 ：电感耦合等离子体四极杆质谱, 碰撞/反应池技术, 现状, 进展

Abstract： The collision/reaction cell system of inductively coupled plasma quadrupole mass spectrometry (ICP-QMS) was briefly introduced. The collision/reaction cell (CRC) systems of ICP-QMS from main instrument manufacturer (such as Agilent, Bruker, PerkinElmer and Thermo Fisher) were induced, which could be classified into three types quadrupole collision/reaction mode, multipole collision/reaction mode and cones collision/reaction mode. The present situation and advance in different types of collision/reaction cell system were reviewed in detail.

Key words： inductively coupled plasma quadrupole mass spectrometry collision/reaction cell technique present situation advanc

收稿日期: 2012-07-03

ZTFLH:

O657.63

基金资助:国家重大科学仪器设备开发专项基金（2011YQ140147）

作者简介: 余兴（1976-）, 男, 高级工程师, 博士, 从事冶金分析方面的研究; E-mail:yuxingnacis@yahoo.com.cn

引用本文:

余兴. 电感耦合等离子体四极杆质谱碰撞/反应池技术现状与进展[J]. 冶金分析, 2013, 33(3): 14-23. YU Xing. The present situation and advance in collision/reaction cell technique of inductively coupled plasma quadrupole mass spectrometry. , 2013, 33(3): 14-23.

链接本文:

http://47.93.29.245/Jweb_yjfx/CN/ 或 http://47.93.29.245/Jweb_yjfx/CN/Y2013/V33/I3/14


	［1］李冰, 胡静宇, 赵墨田. 碰撞/反应池ICP-MS性能及应用进展［J］. 质谱学报(Jaurnal of Chinese Mass Spectrometry Society), 2010, 31(1): 1-11.

	［2］ BARANOV V I,TANNER S D. A dynamic reaction cell for inductively coupled plasma mass spectrometry (ICP-DRC-MS) Part 1. the rf-field energy contribution in thermodynamics of ion-molecule reactions ［J］. J. Anal. At. Spectrom., 1999, 14: 1133-1142.

	［3］ TANNER S D, BARANOV V I. A dynamic reaction cell for inductively coupled plasma mass spectrometry (ICP-DRC-MS). II. Reduction of interferences produced within the cell［J］. J. Am. Soc. Mass Spectrom., 1999, 10: 1083-1094.

	［4］ TANNER S D, BARANOV V I, VOLL KOP U. A dynamic reaction cell for inductively coupled plasma mass spectrometry (ICP-DRC-MS) Part III. optimization and analytical performance［J］. J Anal At Spectrom., 2000, 15: 1261-1269.

	［5］ KOYANAGI G K, BARANOV V I, TANNER S D, et al. An inductively coupled plasma/selected-ion-flow tube mass spectrometric study of the chemical resolution of isobaric interferences［J］. J. Anal. At. Spectrom., 2000, 15: 1207-1210.

	［6］ VAN HAECKE F, BALCAEN L, DECONINCK I, et al. Mass discrimination in dynamic reaction cell (DRC)-ICP-mass spectrometry［J］. J. Anal. At. Spectrom., 2003, 18: 1060-1065.

	［7］ BANDURA D R, BARANOV V I, TANNER S D. Effect of collisional damping and reactions in a dynamic reaction cell on the precision of isotope ratio measurements［J］. J. Anal. At. Spectrom.,2000, 15: 921-928.

	［8］李金英, 徐书荣. ICP-MS仪器的过去、现在和未来［J］. 现代科学仪器(Modern Scientific Instraments), 2011, (5): 29-34.

	［9］ Douglas D J, French J B. Collisional focusing effects in radiofrequency quadrapoles ［J］. J. Am. Soc. Mass Spectrom., 1992, 3(2): 398-408.

	［10］Douglas D J. Some current perspectives on ICP-MS［J］. Can. J. Spectroscopy., 1989, 34 (1): 38-49.

	［11］ Eiden G C, Barinaga C J, Koppenaal D W. Selective removal of plasma matrix ions in plasma source mass spectrometer［J］. J. Anal. At. Spectrom., 1996, 11(2): 317-322.

	［12］王耐芬, 王小燕, 欧阳荔, 等. DRC II型ICP-MS分析技术及其应用［J］. 中国医学装备(China Medical Equipment), 2004, 1(4): 34-37.

	［13］ Deng A P, Liu H T, Jiang S J, et al. Reaction cell inductively coupled plasma mass spectrometry - based immunoassay using ferrocene tethered hydroxysuccinimide ester as label for the determination of 2,4-dichlorophenoxyacetic acid［J］. Analitica Chimica Acta, 2002, 472(1-2): 55-61.

	［14］ Li P C, Jiang S J. Electrothermal vaporization inductively coupled plasma-mass spectrometry for the determination of Cr, Cu, Cd, Hg and Pb in rice flour［J］. Analitica Chimica Acta, 2003, 495(1-2): 143-150.

	［15］ Nixon D E, Neubauer K R, Eckdahl S J, et al. Evaluation of a tunable bandpass reaction cell for an inductively coupled plasma mass spectrometer for the determination of chromium and vanadium in serum and urine［J］. Spectrochimica Acta Part B: Atomic Spectroscopy, 2003, 57(5): 951-966.

	［16］ Chen K L, Jiang S J. Determination of calcium, iron and zinc in milk powder by reaction cell inductively coupled plasma mass spectrometry［J］. Analitica Chimica Acta, 2002, 470(2): 223-228.

	［17］ Nixon D E, Neubauer K R, Kenneth R, et al. Evaluation of a tunable bandpass reaction cell inductively coupled plasma mass spectrometer for the determination of selenium in serum and urine［J］. Spectrochimica Acta Part B: Atomic Spectroscopy, 2003, 58(1): 97-110.

	［18］ Ben-Younes M, Gregoire D C, Chakrabarti C L. Effectiveness of ammonia in reducing carbon–based polyatomic ion interferences in electrothermal vaporization collision cell inductively coupled plasma mass spectrometry［J］. Spectrochimica Acta Part B: Atomic Spectroscopy, 2003, 58(2): 361-372.

	［19］ HATTENDORF B, G，NTHER D. Strategies for method development for an inductively coupled plasma mass spectrometer with bandpass reaction cell. Approaches with different reaction gases for the determination of selenium［J］. Spectrochim Acta Part B: Atomic Spectroscopy, 2003, 58: 1-13.

	［20］ TANNER S D, BARANOV V I, BANDURA D R. Reaction cells and collision cells for ICP-MS: a tutorial review［J］. Spectrochim Acta Part B: Atomic Spectroscopy, 2002, 57 (9): 1361-1452.

	［21］ Muynck D De, Vanhaecke F. Development of a method based on inductively coupled plasma-dynamic reaction cell-mass spectrometry for the simultaneous determination of phosphorus, calcium and strontium in bone and dental tissue ［J］. Spectrochimica Acta Part B: Atomic Spectroscopy, 2009, 64(5): 408-415.

	［22］ Ardini F, Magi E, Grotti M. Determination of ultratrace levels of dissolved metals in seawater by reaction cell inductively coupled plasma mass spectrometry after ammonia induced magnesium hydroxide coprecipitation ［J］. Analytica Chimica Acta, 2011, 706(1): 84-88.

	［23］ Guo W, Hu S H, Xiao Y F, et al. Direct determination of trace cadmium in environmental samples by dynamic reaction cell inductively coupled plasma mass spectrometry ［J］. Chemosphere, 2010, 81(11): 1463-1468.

	［24］ Guo W, Hu S H, Xiao Y F, et al. Removal of spectral interferences and accuracy monitoring of trace cadmium in feeds by dynamic reaction cell inductively coupled plasma mass spectrometry ［J］. Microchemical Journal, 2011, 97(2): 154-159.

	［25］ Phan-Thien K-Y, Wright G C, Lee N A. Inductively coupled plasma-mass spectrometry (ICP-MS) and -optical emission spectroscopy (ICP-OES) for determination of essential minerals in closed acid digestates of peanuts (Arachis hypogaea L.) ［J］. Food Chemistry, 2012, 134(1): 453-460.

	［26］ Danadurai K S K, Chellam S, Lee C-T, et al. Trace elemental analysis of airborne particulate matter using dynamic reaction cell inductively coupled plasma-mass spectrometry: Application to monitoring episodic industrial emission events ［J］. Analytica Chimica Acta, 2011, 686(1-2): 40-49.

	［27］ Spada N, Bozlaker A, Chellam S. Multi-elemental characterization of tunnel and road dusts in Houston, Texas using dynamic reaction cell-quadrupole-inductively coupled plasma-mass spectrometry: Evidence for the release of platinum group and anthropogenic metals from motor vehicles ［J］. Analytica Chimica Acta, 2012, 735: 1-8.

	［28］李政军, 黄金凤, 刘健斌, 等.八极杆碰撞／反应池-ICP-MS测定纯铜中的磷［J］. 分析试验室(Chinese Journal of Analysis Laboratory), 2007, 26(1): 76-78.

	［29］李政军, 钟志光, 陈佩玲,等. ORS-ICP-MS测定工业废水中La系稀土元素［J］. 光谱实验室(Chinese Journal of Spectroscopy Laboratory), 2004, 21 (2): 264-266.

	［30］ Heitland P，McCurdy E．Rapid and reliable routine analysis of urine by octopole reaction Cell ICP-MS［J］．Agilent ICP-MS Application Notes, 2005：5 989-2 482EN ．

	［31］ Wahlen R，Evans L，Turner J，et a1．The use of collision／reaction cell ICP-MS for the simultaneous determination of 18 elements in blood and serum samples［J］．Agilent ICP-MS Application Notes，2005：5 989-2 885EN．

	［32］ Amr M A, Abdel-Lateef A M. Comparing the capability of collision/reaction cell quadrupole and sector field inductively coupled plasma mass spectrometers for interference removal from 90 Sr, 137 Cs, and 226 Ra ［J］. International Journal of Mass Spectrometry, 2011, 299(2-3): 184-190.

	［33］ Colon M, Hidalgo M, Iglesias M. Arsenic determination by ICP-QMS with octopole collision/reaction cell. Overcome of matrix effects under vented and pressurized cell conditions ［J］. Talanta, 2011, 85(4): 1941-1947.

	［34］ Thermo Application Note 40718：Analysis of ultra-trace level elements in seawaters by X series II ICP-MS 3rd generation collision cell technology.

	［35］刘华章, 彭荣飞, 侯建荣, 等. ICP-MS碰撞池技术测定食盐、调味品和尿液中的Cr、V、As和S ［J］. 中国卫生检验杂志(Chinese Journal of Health Laboratory Technology), 2008, 18(4): 577-579.

	［36］吕伟明, 张琦, 郑科. ICP-MS碰撞反应池技术测定地表水中Fe、As、Se［J］. 四川环境(Sichuan Environment), 2008, 27(3): 27-29.

	［37］ Feldmann I, Jakubowski N, Stuewer D. Application of a hexapole collision and reaction cell in ICP-MS part I: Instrumental aspects and operational optimization［J］. Fresenius J. Anal. Chem., 1999, 365(5): 415-421.

	［38］ Feldmann I, Jakubowski N, Stuewer D. Application of a hexapole collision and reaction cell in ICP-MS part II: analytical figures of merit and first applications ［J］. Fresenius J. Anal. Chem., 1999, 365(5): 422-428.

	［39］ Du Z Y, Houk R S. Attenuation of metal oxide ions with hydrogen in a hexapole collision cell in ICP-MS［J］. J. Anal. At. Spectrom., 2000, 15:383-388.

	［40］ Kadar A, No?l L, Chekri R, et al. Optimisation of ICP-MS collision/reaction cell conditions for the determination of elements likely to be interfered (V, Cr, Fe, Co, Ni, As and Se) in foodstuffs ［J］. Talanta, 2011, 85(5): 2605-2613.

	［41］ Santosa M C, Nóbregab J A, Solange Cadorea. Electrical and electronic equipment by inductively coupled plasma mass spectrometry with collision-reaction interface technology ［J］. Journal of Hazardous Materials, 2011, 190(1-3): 833-839.

	［42］ Fialho L L, Pereira C D, Nóbrega J A. Combination of cool plasma and collision-reaction interface for correction of polyatomic interferences on copper signals in inductively coupled plasma quadrupole mass spectrometry［J］. Spectrochimica Acta Part B: Atomic Spectroscopy, 2011, 66(5): 389-393.