化学蒸气发生进样技术在原子光谱分析应用中的进展
Progress in Application of Chemical Vapor Generation for Sample Introduction Technology to Atomic Spectrometry
摘 要
从化学蒸气发生技术的仪器装置、影响蒸气发生效率的主要因素、与分离富集技术的联用以及新型蒸气发生技术等方面,综述了2008-2017年化学蒸气发生进样技术,包括基于硼氢化物反应的蒸气发生、光诱导化学蒸气发生、介质阻挡放电蒸气发生和电化学蒸气发生,在原子光谱分析应用中的进展(引用文献95篇)。
原子光谱法
分离富集技术
光诱导化学蒸气发生
介质阻挡放电蒸气发生
电化学蒸气发生
chemical vapor generation
atomic spectrometry
separation and enrichment technique
photo chemical vapor generation
dielectric barrier discharge vapor generation
electrochemical vapor generation
Abstract
From the aspects of the instruments for the chemical vapor generation, the main factors affecting the efficiency of vapor generation, the combination with separation and enrichment technique and the new vapor generation technology, a review on application of chemical vapor generation for sample introduction technology to atomic spectrometry in years from 2008 to 2017 was presented, including vapor generation based on tetrahydroborate reactions, photo chemical vapor generation, dielectric barrier discharge vapor generation and electrochemical vapor generation (95 ref. cited).
中图分类号 O657.31 DOI 10.11973/lhjy-hx201810023
所属栏目 综述
基金项目 陕西省科技计划项目(2015KJXX-81)
收稿日期 2017/10/23
修改稿日期
网络出版日期
作者单位点击查看
备注沈宇,高级工程师,主要从事应用分析方法研究工作
引用该论文: SHEN Yu,LIU Kun,GUO Yue,SUN Dong,FENG Yuhuai,LI Risheng. Progress in Application of Chemical Vapor Generation for Sample Introduction Technology to Atomic Spectrometry[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2018, 54(10): 1225~1233
沈宇,刘坤,郭跃安,孙冬娥,冯玉怀,李日升. 化学蒸气发生进样技术在原子光谱分析应用中的进展[J]. 理化检验-化学分册, 2018, 54(10): 1225~1233
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【39】GUERRERO M M L, ALONSO E V, PAVÓN J M C, et al. Journal of Analytical Atomic Spectrometry[J], 2016,31(4):975-984.
【40】FENG Y L, STURGEON R E, LAM J W. Journal of Analytical Atomic Spectrometry[J], 2003,18(12):1435-1442.
【41】DOS SANTOS V C, GRASSI M T, DE CAMPOS M S, et al. Analyst[J], 2012,37(19):4458-4463.
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【43】TODOLÍ J L, MERMET J M. Spectrochimica Acta Part B:Atomic Spectroscopy[J], 2006,61(3):239-283.
【44】ZENG C J, JI L, ZHOU C J, et al. Microchemical Journal[J], 2015,119:1-5.
【45】HE L, ZHU X F, WU L, et al. Atomic Spectroscopy[J], 2008,29(3):93-98.
【46】ZENG C J, JIA Y, LEE Y I, et al. Microchemical Journal[J], 2012,104:33-37.
【47】ZENG C J, KONG J L, ZHOU N, et al. Analytical Methods[J], 2013,5(6):1564-1569.
【48】MUSIL S, KRATZER J, VOBECKÝ M, et al. Journal of analytical atomic spectrometry[J], 2010,25(10):1618-1626.
【49】YANG X A, CHI M B, WANG Q Q, et al. Analytica Chimica Acta[J], 2015,869:11-20.
【50】VILLANUEVA-ALONSO J, PEИA-VÁZQUEZ E, BARCIELA-ALONSO M C, et al. Atomic Spectroscopy[J], 2014,35(1):7-16.
【51】KRAWCZYK M, MATUSIEWICZ H. Journal of the Brazilian Chemical Society[J], 2013,24(5):749-757.
【52】ARSLAN Z, YILMAZ V, ROSE L K. Microchemical Journal[J], 2015,123:170-178.
【53】ZENG C J, QIN P P, LAN L L, et al. Microchemical Journal[J], 2017,131:31-35.
【54】HU B, HE M, CHEN B. Analytical and Bioanalytical Chemistry[J], 2015,407(10):2685-2710.
【55】CAMEL V. Spectrochimica Acta Part B:Atomic Spectroscopy[J], 2003,58(7):1177-1233.
【56】CHENG G H, HE M, PENG H Y, et al. Talanta[J], 2012,88(1):507-515.
【57】ROFOUEI M K, SABOURI A, AHMADALINEZHAD A, et al. Journal of Hazardous Materials[J], 2011,192(3):1358-1363.
【58】SOLEIMANI M, MAHMODI M S, MORSALI A, et al. Journal of Hazardous Materials[J], 2011,189(1/2):371-376.
【59】LEMOS V A, SANTOS M S, SANTOS E S, et al. Spectrochimica Acta Part B:Atomic Spectroscopy[J], 2007,62(1):4-12.
【60】TUZEN M, KARAMAN I, CITAK D, et al. Food and Chemical Toxicology[J], 2009,47(7):1648-1652.
【61】HUANG C, HU B. Spectrochimica Acta Part B:Atomic Spectroscopy[J], 2008,63(3):437-444.
【62】YAYAYÜRÜK O, HENDEN E. Analytical Sciences[J], 2016,32(8):867-873.
【63】SCIDA K, STEGE P W, HABY G, et al. Analytica Chimica Acta[J], 2011,691(1):6-17.
【64】BENDICHO C, BENDICHO-LAVILLA C, LAVILLA I. Trends in Analytical Chemistry[J], 2016,77:109-121.
【65】JIANG X, HUANG K, DENG D, et al. Trends in Analytical Chemistry[J], 2012,39:38-59.
【66】HU B, HE M, CHEN B. Analytical and Bioanalytical Chemistry[J], 2015,407(10):2685-2710.
【67】SCIDA K, STEGE P W, HABY G, et al. Analytica Chimica Acta[J], 2011,691(1):6-17.
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