电热原子吸收光谱分析中的持久性化学改进剂
Permanent Chemical Modifier in Electrothermal Atomic Absorption Spectrometry
摘 要
介绍了电热原子吸收光谱(ETAAS)分析中,克服基体效应的持久性化学改进剂研究概况.内容包括延长石墨平台使用寿命;降低空白信号值,改善检出限;分析信号持久稳定,改善精密度;导致ETAAS升温程序简化、快速;降低分析成本以及样品分析的应用情况等,引用文献36篇.
ETAAS
综述
Permanent chemical modifier
Electrothermal atomic absorption spectrometry
Review
Abstract
A review on the present status of the use of permanent chemical modifier in electrothermal-atomic absorption spectrometry,covering the years from 1979 to 2004,was presented in this paper. The following items were related: ① prolongation of lifetime of graphite plateform;② lowering the values of blank signals and improving the detection limit;③ improving the precision by keeping permanent stability of analytical signals;④ simplifying and speeding of the program of temperature elevation in EtAAS;⑤ lowering the cost of analysis;and ⑥ state of application to the analysis of substantial samples (36 ref. cited).
中图分类号 O657.31
所属栏目 综述
基金项目
收稿日期 2006/3/25
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备注陶锐(1931-),男,河南人,主任技师,从事卫生化学分析.
引用该论文: TAO Rui,GAO Ge. Permanent Chemical Modifier in Electrothermal Atomic Absorption Spectrometry[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2007, 43(1): 85~89
陶锐,高舸. 电热原子吸收光谱分析中的持久性化学改进剂[J]. 理化检验-化学分册, 2007, 43(1): 85~89
被引情况:
【1】镉高舸,陶锐,张钦龙,梅玉琴, "持久性化学改进剂钨-铱用于电热原子吸收光谱法测定水和植物性食品中痕量",理化检验-化学分册 44, 391-394(2008)
【2】张钦龙,高舸,王玲, "持久性化学改进剂铱用于石墨炉原子吸收光谱法测定粮食中痕量铅",理化检验-化学分册 46, 1118-1121(2010)
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参考文献
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【2】Ediger R D. At Absorpt Newsl[J],1979,4(2):127.
【3】Ure T A M,Butler L R P,L′vov B V,et al. Pure Appl Chem[J],1992,64:253.
【4】Tsalv D L,Slaveykova V I,Lampugnani L,et al. Spectrochim Acta[J],2000,55B(5):473.
【5】Schemmer G,Walz B. Spectrochim Acta[J],1986,41B(9):1157.
【6】Shuttler I L,Feuerstein M. J Anal At Spectrom[J],1992,7(8):1299.
【7】Lima E C,Barbosa R V,Brasil J V,et al. J Anal At Spectrom[J],2002,17(11):1523.
【8】Zhou Y,Parson P J,Aldous K M,et al. Spectrochim Acta[J],2002,57B(4):727.
【9】Barbosa F,Lima E C,Zanao R A,et al. J Anal At Spectrom[J],2001,16(8):842.
【10】Grinberg P,Campos R C. Spectrochim Acta[J],2001,56B(10):1831.
【11】Meeravali N N,Kumar S J. J Anal At Spectrom[J],2001,16(5):527.
【12】Lima E C,Barbosa F,Krug F J,et al. J Anal At Spectrom[J],2000,15(8):995.
【13】Aucelio R Q,Curtius A J,Welz B J. J Anal At Spectrom[J],2000,15(10):1389.
【14】Lima E C,Barbosa F,Krug F J,et al. J Anal At Spectrom[J],1999,14(10):1601.
【15】Lima E C,Barbosa F,Krug F J,et al. J Anal At Spectrom[J],1999,14(12):1913.
【16】Lima E C,Krug F J,Ferreira A T,et al. J Anal At Spectrom[J],1999,14(2):269.
【17】Silva J B B,Silva M A M,Cutius A J,et al. J Anal At Spectrom[J],1999,14(11):1737.
【18】Lima E C,Krug F J,Jackson K. Spectrochim Acta[J],1998,53B(13):1791.
【19】Bulska E,Kandler W,Hulanicki A,et al. Spectrochim Acta[J],1996,51B(9/10):1263.
【20】Rademeyer C L. J Anal At Spectrom[J],1995,10(2):739.
【21】Slaveykova V I,Lampugnani L,Tsalev D L,et al. Spectrochim Acta[J],1999,54B(3/4):455.
【22】Pozebon D,Dressler V L,Curt A J. J Anal At Spectrom[J],1998,13(1):7.
【23】Orhan A. J Anal At Spectrom[J],2004,19(5):709.
【24】Tsalev D L,D′ulivo A,Lampugnani L. J Anal At Spectrom[J],1995,10(11):1003.
【25】Tsalev D L,D′ulivo A,Lampugnani L. J Anal At Spectrom[J],1996,11(10):979.
【26】Tsalev D L,D′ulivo A,Lampugnani L. J Anal At Spectrom[J],1996,11(10):989.
【27】Lima E C,Brasil J L,Santos A dos. Microchim Acta[J],2004,146:21.
【28】Volynsky A B. Spectrochim Acta[J],1998,53B(4):509.
【29】Volynsky A B. Spectrochim Acta[J],1998,53B(4):1607.
【30】Volynsky A B. Spectrochim Acta[J],2000,55B(2):103.
【31】Volynsky A B,Kriran V,Tikhomirow A. Spectrochim Acta[J],1996,51B(9/10):1253.
【32】Drash G,Meyer L V,Kauert G. Fresenius′ Z Anal Chem[J],1980,304:141.
【33】Ni Ze M,Zhang D Qu. Spectrochim Acta[J],1995,50B(14):1779.
【34】Jing G B,Ni Z M,Zhang A L,et al. J Anal At Spectrom[J],1992,7(2):447.
【35】Garbos S,Walcerz M,Hulanick B E. Spectrochim Acta[J],1995,50B(13):1669.
【36】Ding W W,Sturgeon R E. Spectrochim Acta[J],1996,51B(11):1325.
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