FIA-光度法在环境分析中的应用研究

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英文题名：Applications and Research on Flow Injection-Spectrophotometric Method for Environmental Analysis 作者：龚正君 论文级别：博士 学科专业名称：皮革化学与工程 中文关键词：流动注射 ; 光度法 ; 环境分析 ; 硒 ; 亚硝酸盐 ; 亚硫酸盐 ; 铁 ; 硫化物 英文关键词：Flow injection analysis ; Spectrophotometry ; Environmental analysis ; Selenium ; Nitrate ; Sulfite ; Iron ; Sulfide 学位年度：2006 导师：张新申 学科代码：082204 学位授予单位：四川大学 论文提交日期：2006-04-20

摘要

环境的严重污染,环境污染物的大量排放,使得保护环境必然成为当代环境工作者刻不容缓的职责,这也是国民经济持续发展的要求。许多环境问题直接或间接与化学物质有关,所以环境化学工作者都要面对这些问题:环境中有什么潜在有毒物质?它们来自何方?进入环境后有什么变化?可能造成什么危害?我们应当采取什么措施防止或减少这些有毒物质对环境的冲击?因此环境分析工作者就要利用各种分析手段提供合适的分析方法、阐明污染物质的组成、结构、状态以及含量,弄清问题的源缘,进而对紧迫情况及早提出预报与警告。环境分析化学是环境化学的一个重要组成部分,是开展环境科学研究不可缺少的基础,同时它也是分析化学的一个新分支,它主要研究环境污染物质的组成、结构、状态以及含量等。从某种意义上讲,环境科学的发展依赖于环境分析化学的发展,环境分析化学具有以下特点:
     (1)涉及范围广。涉及大气、溪流、湖泊、江河、海洋、土壤陆地系统、乃至生物圈等;
     (2)对象复杂。CA登录的化学品数目已逾1800万种,估计进入环境的已有10万种。
     (3)定量分析。除要求常规指标,如化学耗氧量(COD)、生物耗氧量(BOD)、溶解氧(DO)等例行测定项目外,还要求具体物种的痕量甚至超痕量分析,而后两者又显得越来越重要;
     (4)普遍性、实用性强。包括化工、钢铁、信息、交通、能源等各行各业均有关,有时要求十分迫切。
     流动注射的出现使分析研究人员兴奋不已,流动注射分析技术在常规体积样品预处理的自动化、微型化和在线分析方面引起了革命性的变化,不仅极大
A lot of environmental pollutants were dischanged into environment without any pretreatment and environment was polluted heavily. So the first duty of environmentalists is how to protect environment from pollution. Nowdays environmental protection is a basic demand of the development of the national economy. Many environmental problems are related to chemical materials directly or indirectly, so the environmentalists how to face the following problems firstly: What kind of noxious substances exist in the environment? Where do they come from? What changes will be after they enter the environment? What harm do they cause? What measures should we take to avoid or decrease the influence of chemical products on the environment? In this field, the environmental analysis should play a leading role. So environmental analysts should find appropriate analytic methods to clarify the component, structure, state and concentration of the pollutants, and make clear the source of the pollution. So the emergencies could be early predicted and warned.
     Environmental Analytic Chemistry is a branch of Environmental Chemistry and the necessary basis of environmental scientific research. It is also a new branch of Analytic Chemistry, it focuses on the research of component, structure, state and concentration of pollutants. To some extent, the development of Environmental Science depends on the development of Environmental Analytic Chemistry. Environmental Analytic Chemistry has the following characteristics:

引文

[1] 方肇伦,流动注射分析法 [M], 北京,科学出版社,1999, P2
    [2] Ruzicka J.,Hanse,E. H.,Flow injection analyses: Part I. A new concept of fast continuous flow analysis [J], Analytica Chimica Acta, 78 (1975) 145-157
    [3] Ruzicka J., J. W. B. Stewart, Flow injection analysis: Part II. Ultrafast determination of phosphorus in plant material by continuous flow spectrophotometry [J], Analytica Chimica Acta, 79(1975) 79-91
    [4] J. W. B. Stewart, Ruzicka J., H. Bergamin Filho, E. A. Zagatto, Flow injection analysis: Part III. Comparison of continuous flow spectrophotometry and potentiometry for the rapid determination of the total nitrogen content in plant digests [J], Analytica Chimica Acta, 81 (1976) 371-386
    [5] Ruzicka J., J. W. B. Stewart, E. A. Zagatto, Flow injection analysis: Part IV. Stream sample splitting and its application to the continuous spectrophotometric determination of chloride in brackish waters [J], Analytica Chimica Acta, 81(1976) 387-396
    [6] J. W. B. Stewart, Ruzicka J., Flow injection analysis: Part V. Simultaneous determination of nitrogen and phosphorus in acid digests of plant material with a single spectrophotometer [J], Analytica Chimica Acta, 82 (1976) 137-144
    [7] Elo H. Hansen, Jaromir Ruzicka, Flow injection analysis: Part VI. The determination of phosphate and chloride in blood serum by dialysis and sample dilution [J], Analytica Chimica Acta, 87 (1976) 353-363
    [8] Ruzicka J., E. H. Hansen, E. A. Zagatto, Flow injection analysis: Part VII. Use of ion-selective electrodes for rapid analysis of soil extracts and blood serum. Determination of potassium, sodium and nitrate [J], Analytica Chimica Acta, 88 (1977) 1-16
    [9] E. H. Hansen, Ruzicka J., B. Rietz, Flow injection analysis: Part VIII. Determination of glucose in blood serum with glucose dehydrogenase [J], Analytica Chimica Acta, 89 (1977) 241-254
    [10] Ruzicka J., E. H. Hansen, H. Mosbaek, Flow injection analysis: Part IX. A New Approach to Continuous Flow Titrations [J], Analytica Chimica Acta, 92 (1977) 235-249
    [11] Ruzicka J., E. H. Hansen, Flow injection analysis: Part X. theory, techniques and trends [J], Analytica Chimica Acta, 99 (1978) 37-76
    [12] Ruzicka J., E. H. Hansen, Stopped flow and merging zones — a new approach to enzymatic assay by flow injection analysis [J], Analytica Chimica Acta, 106 (1979) 207-224
    [13] M. J. Almendral Parra, A. Alonso Mateos, M. Martín Mata, C. García de María, Enzymatic flow-injection determination of L-phenylalanine using the stopped-flow and merging-zones techniques [J], Talanta, 47 (1998) 121-126
    [16] Pintauer T., Braunecker W., Collange E., Poli R., Matyjaszewski K., Determination of Rate Constants for the Activation Step in Atom Transfer Radical Polymerization Using the Stopped-Flow Technique[J], Macromolecules, 37 (2004) 2679-2682
    [17] Wakasa M., Kugita T., Direct Observation of a Stannyl Radical in the Reactions of the Tributylstannyl Anion with Alkyl Halides by a Stopped-Flow Technique [J], Organometallics, 17 (1998) 1913-1915
    [18] Wu F. C., Mills R. B., Evans R. D., Dillon P. J., Kinetics of Metal-Fulvic Acid Complexation Using a Stopped-Flow Technique and Three-Dimensional Excitation Emission Fluorescence Spectrophotometer [J], Anal. Chem., 76 (2004) 110-113
    [19] Sami H. Ali, Sabiha Q. Merchant, Mohammad A. Fahim, Reaction kinetics of some secondary alkanolamines with carbon dioxide in aqueous solutions by stopped flow technique [J], Separation and Purification Technology, 27 (2002) 121-136
    [20] N. D. Yordanov, V. Gancheva, B. Mladenova, G. Grampp, Kinetic studies on the reaction between copper(II) ions and some dithiocarbonates using stopped-flow technique [J],Inorganic Chemistry Communications, 6 (2003) 54-57
    [21] R.M. Mulla, Sharanappa T. Nandibewoor, Mechanistic and spectral investigation of the oxidation of 4-hydroxycoumarin by aqueous alkaline permanganate using the stopped flow technique [J], Polyhedron, 23 (2004) 2507-2513
    [22] Ramesh S. Shettar, Sharanappa T. Nandibewoor, Kinetic, mechanistic and spectral investigations of ruthenium(III)-catalysed oxidation of 4-hydroxycoumarin by alkaline diperiodatonickelate(IV) (stopped flow technique) [J], Journal of Molecular Catalysis A: Chemical, 234 (2005) 137-143
    [23] Mayr L. M., Odefey C., Schutkowski M., Schmid F. X., Kinetic Analysis of the Unfolding and Refolding of Ribonuclease T1 by a Stopped-Flow Double-Mixing Technique [J], Biochemistry, 35(1996) 5550-5561
    [24] Tsuyoshi Kugita, Masanobu Wakasa, Junsei Tamura, Hisaharu Hayashi, Kinetic studies of reactions of the stannyl anion with primary alkyl halides by a stopped-flow technique [J], Inorganic Chemistry Communications, 1 (1998) 386-388
    [25] I. A. Pettas, M. I. Karayannis, Application of two-way decomposition methods in the simultaneous determination of cobalt, nickel and iron by coupling stopped-flow techniques and CCD detection [J], Analytica Chimica Acta, 491 (2003) 219-229
    [26] M. I. Karayannis, I. A. Pettas, Simultaneous kinetic determination of cobalt, nickel and iron by coupling stopped-flow techniques and charge coupled device detection [J], Analytica Chimica Acta, 423 (2000) 277-286
    [27] I. A. Pettas, S. I. Lafis, M. I. Karayannis, Reaction rate method for determination of nitrite by applying a stopped-flow technique [J], Analytica Chimica Acta, 376 (1998) 331-337
    [28] Teresa Galeano Díaz, Isabel Durán Merás, María F. Alexandre Franco, Stopped flow kinetic-spectrophotometric determination of Diquat in waters [J], Water Research, 36 (2002) 783-787
    [29] Javier Saurina, Santiago Hernández-Cassou, Flow-injection and stopped-flow completely continuous flow spectrophotometric determinations of aniline and cyclohexylamine [J], Analytica Chimica Acta, 396 (1999) 151-159
    [30] A. Espinosa-Mansilla, M. I. Acedo Valenzuela, F. Salinas, F. Ca?ada Ca?ada, Kinetic determination of ansamicins in pharmaceutical formulations and human urine. Manual and semiautomatic (stopped-flow) procedures [J], Analytica Chimica Acta, 376 (1998) 365-375
    [31] Paraskevas D. Tzanavaras, Constantinos K. Zacharis, Georgios A. Theodoridis, Eftichios A.Kalaitzantonakis, Anastasios N. Voulgaropoulos, Normal spectrophotometric and stopped-flow spectrofluorimetric sequential injection methods for the determination of alendronic acid, an anti-osteoporosis amino-bisphosphonate drug, in pharmaceuticals [J], Analytica Chimica Acta, 547 (2005) 98-103
    [32] Eloy Salinas, Angel A.J. Torriero, Fernando Battaglini, María I. Sanz, Roberto Olsina, Julio Raba, Continuous-flow/stopped-flow system for enzyme immunoassay using a rotating bioreactor: determination of Chagas disease [J], Biosensors and Bioelectronics, 21 (2005) 313-321
    [33] Jaromir Ruzicka, Graham D. Marshall, Sequential injection: a new concept for chemical sensors, process analysis and laboratory assays [J], Analytica Chimica Acta, 237 (1990) 329-343
    [34] 刘学著, 方肇伦, 顺序注射分析及其应用 [J], 分析科学学报, 15 (1999) 71-72.
    [35] V. Cerda, J.M. Estela, R. Forteza, A. Cladera, E. Becerra, P. Altimira, P. Sitjar, Flow techniques in water analysis [J], Talanta 50 (1999) 695-705
    [36] Neil W. Barnett, Claire E. Lenehan, Simon W. Lewis, Sequential injection analysis: an alternative approach to process analytical chemistry [J], TrAC Trends in Analytical Chemistry, 18 (1999) 346-353
    [37] Jianhua Wang, Elo Harald Hansen, On-line sample-pre-treatment schemes for trace-level determinations of metals by coupling flow injection or sequential injection with ICP-MS [J], TrAC Trends in Analytical Chemistry, 22 (2003) 836-846
    [38] J. F. van Staden, R. I. Stefan, Chemical speciation by sequential injection analysis: an overview [J], Talanta, 64, (2004) 1109-1113
    [39] Jianhua Wang, Elo Harald Hansen, Trends and perspectives of flow injection/sequential injection on-line sample-pretreatment schemes coupled to ETAAS [J], TrAC Trends in Analytical Chemistry, 24 (2005) 1-8
    [40] A. Economou, Sequential-injection analysis (SIA): A useful tool for on-line sample-handling and pre-treatment [J], TrAC Trends in Analytical Chemistry, 24 (2005) 416-425
    [41] Manuel Miró, Elo Harald Hansen, Solid reactors in sequential injection analysis: recent trends in the environmental field [J], TrAC Trends in Analytical Chemistry, 25 (2006) 267-281
    [42] Ruzicka J., E. H. Hansen, Recent developments in flow injection analysis: gradienttechniques and hydrodynamic injection [J], Analytica Chimica Acta, 145 (1983) 1-15
    [43] Patricia B. Martelli, Boaventura F. Reis, Eloisa A. M. Kronka, Henrique Bergamin , Mauro Korn, Elias A. G. Zagatto, JoséLuis F. C. Lima, Alberto N. Araujo, Multicommutation in flow analysis. Part 2. Binary sampling for spectrophotometric determination of nickel, iron and chromium in steel alloys [J], Analytica Chimica Acta, 308 (1995) 397-405
    [44] Eloisa A. M. Kronka, Boaventura F. Reis, Mauro Korn, Henrique Bergamin F, Multicommutation in flow analysis. Part 5: Binary sampling for sequential spectrophotometric determination of ammonium and phosphate in plant digests [J], Analytica Chimica Acta, 334 (1996) 287-293
    [45] Carmen Pons, Rafael Forteza, Víctor Cerdà, Expert multi-syringe flow-injection system for the determination and speciation analysis of iron using chelating disks in water samples [J], Analytica Chimica Acta, 524 (2004) 79-88
    [46] D.M.C. Gomes, M.A. Segundo, J.L.F.C. Lima, A.O.S.S. Rangel, Spectrophotometric determination of iron and boron in soil extracts using a multi-syringe flow injection system [J], Talanta, 66 (2005) 703-711
    [47] 王建华, 方肇伦, 第三代流动注射分析“阀上实验室”的现状与趋势[J], 分析化学, 32(2004) 1401-1406
    [48] 方肇伦, 微流控分析芯片[M], 北京 科学出版社, 2003
    [49] E. H. Hansen, J. Rika, Animesh K. Ghose, Flow injection analysis for calcium in serum, water and waste waters by spectrophotometry and by ion-selective electrode [J], Analytica Chimica Acta, 100 (1978) 151-165
    [50] Norio Teshima, Shingo Gotoh, Kazunori Ida, Tadao Sakai, One-shot flow injection spectrophotometric simultaneous determination of copper, iron and zinc in patients’ sera with newly developed multi-compartment flow cell [J], Analytica Chimica Acta, 557( 2006) 387-392
    [51] S. Lunvongsa, M. Oshima, S. Motomizu, Determination of total and dissolved amount of iron in water samples using catalytic spectrophotometric flow injection analysis [J], Talanta, 68 (2006) 969-973
    [52] Norio Teshima, Nobukazu Fukui, Tadao Sakai, Reagents regeneration flow injection analysis (RRFIA) for spectrophotometric determination of methamphetamine coupled with solvent extraction [J], Talanta, 68 (2005) 253-255
    [53] K. Uraisin, D. Nacapricha, S. Lapanantnoppakhun, K. Grudpan, S. Motomizu, Determination of trace amounts of bromide by flow injection/stopped-flow detection technique using kinetic-spectrophotometric method [J], Talanta, 68 (2005) 274-280
    [54] Mai Kuramochi, Kenichi Tomioka, Masanori Fujinami, Koichi Oguma, Rapid determination of lead extracted by acetic acid from glazed ceramic surfaces by flow injection on-line preconcentration and spectrophotometric detection [J], Talanta, 68 (2005) 287-291
    [55] Sandra V.M. de Moraes, Jorge L. Brasil, Caroline D. Milcharek, Lucas C. Martins, Marina T. Laranjo, Márcia R. Gallas, Edílson V. Benvenutti, Eder C. Lima, Use of 1,3-diaminepropane-3-propyl grafted onto a silica gel as a sorbent for flow-injection spectrophotometric determination of copper (II) in digests of biological materials and natural waters [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 62 (2005) 398-406
    [56]Piyanete Sritharathikhun, Mitsuko Oshima, Shoji Motomizu, On-line collection/concentration of trace amounts of formaldehyde in air with chromatomembrane cell and its sensitive determination by flow injection technique coupled with spectrophotometric and fluorometric detection [J], Talanta, 67 (2005) 1014-1022
    [57] P. R.S. Ribeiro, J.A. Gomes Neto, L. Pezza, H.R. Pezza, Flow-injection spectrophotometric determination of methyldopa in pharmaceutical formulations [J], Talanta, 67 (2005) 240-244
    [58] S. Hari babu, K. Suvardhan, K. Suresh Kumar, K.M. Reddy, D. Rekha, P. Chiranjeevi, The facile flow-injection spectrophotometric detection of gold (III) in water and pharmaceutical samples using 3,5-dimethoxy-4-hydroxy-2-aminoacetophenone isonicotinoyl hydrazone (3,5-DMHAAINH) [J], Journal of Hazardous Materials, 120 (2005) 213-218
    [59] Katsuhisa Shimada, Tetsuro Shimoda, Hisao Kokusen, Shigenori Nakano, Automatic microdistillation flow-injection system for the spectrophotometric determination of fluoride [J], Talanta, 66 (2005) 80-85
    [60] Silvia R.P. Meneses, Nelson Maniasso, Elias A.G. Zagatto, Spectrophotometric flow-injection determination of sulphate in soil solutions [J], Talanta, 65 (2005) 1313-1317
    [61] Claudineia R. Silva, Heberth J. Vieira, Larissa S. Canaes, Joaquim A. Nóbrega, Orlando Fatibello-Filho, Flow injection spectrophotometric method for chloride determination innatural waters using Hg(SCN)2 immobilized in epoxy resin [J], Talanta, 65 (2005) 965-970
    [62] Jairo Lisboa Rodrigues, Cristiana Schmidt de Magalh?es, Pedro Orival Luccas, Flow injection spectrophotometric determination of Al in hemodialysis solutions [J], Journal of Pharmaceutical and Biomedical Analysis, 36 (2005) 1119-1123
    [63] Moisés Knochen, Javier Giglio, Flow-injection determination of phenylephrine hydrochloride in pharmaceutical dosage forms with on-line solid-phase extraction and spectrophotometric detection [J], Talanta, 64 (2004) 1226-1232
    [64] Isabel Dol, Moisés Knochen, Flow-injection spectrophotometric determination of salbutamol with 4-aminoantipyrine [J], Talanta, 64 (2004) 1233-1236
    [65] Ali A. Ensafi, B. Rezaei, S. Nouroozi, Highly selective spectrophotometric flow-injection determination of trace amounts of bromide by catalytic effect on the oxidation of m-cresolsulfonephthalein by periodate [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 60 (2004) 2053-2057
    [66] Ana Cristi B Dias, Josiane M.T Carneiro, Elias A.G Zagatto, Spectrophotometric flow-injection determination of zinc in plant digests based on a spot test [J], Talanta, 63, (2004) 245-250
    [67] Zhihai Xie, Jingchan Zhao, Reverse flow injection spectrophotometric determination of iodate and iodide in table salt [J], Talanta, 63 (200) 339-343
    [68] Mar?a? S Di Nezio, Miriam E Palomeque, Beatriz S Fernández Band, A sensitive spectrophotometric method for lead determination by flow injection analysis with on-line preconcentration [J], Talanta, 63 (2004) 405-409
    [69] Xuan-Feng Yue, Zhi-Qi Zhang, Hong-Tao Yan, Flow injection catalytic spectrophotometric simultaneous determination of nitrite and nitrate [J], Talanta, 62 (2004) 97-101
    [70] Moisés Knochen, Javier Giglio, Boaventura F. Reis, Flow-injection spectrophotometric determination of paracetamol in tablets and oral solutions [J], Journal of Pharmaceutical and Biomedical Analysis, 33 (2003) 191-197
    [71] Lijuan Wang, Terence J. Cardwell, Robert W. Cattrall, Maria D. Luque de Castro, Spas D. Kolev, Determination of ammonia in beers by pervaporation flow injection analysis and spectrophotometric detection [J], Talanta, 60 (2003) 1269-1275
    [72] M. Soledad Garcia, M. Isabel Albero, Concepción Sánchez-Pedre?o, M. S. Abuherba, Spectrophotometric determination of cimetidine in pharmaceuticals and urine using batch and flow-injection methods [J], Journal of Pharmaceutical and Biomedical Analysis, 32(2003) 1003-1010
    [73] Adem Asan, Ibrahim Isildak, Muberra Andac, Fatih Yilmaz, A simple and selective flow-injection spectrophotometric determination of copper(II) by using acetylsalicylhydroxamic acid [J], Talanta, 60 (2003) 861-866
    [74] R Paolo Rumori, Victor Cerdà, eversed flow injection and sandwich sequential injection methods for the spectrophotometric determination of copper(II) with cuprizone [J], Analytica Chimica Acta, 486 (2003) 227-235
    [75] Muberra Andac, Adem Asan, Yunus Bekdemir, Halil Kutuk, Ibrahim Isildak, Spectrophotometric flow-injection analysis of mercury(II) in pharmaceuticals with p-nitrobenzoxosulfamate [J], Talanta, 60(2003) 191-197
    [76] M. S. Bloomfield, A sensitive and rapid assay for 4-aminophenol in paracetamol drug and tablet formulation, by flow injection analysis with spectrophotometric detection [J], Talanta, 58 (2002) 1301-1310
    [77] Tomasz Kleszczewski, Ewa Kleszczewska, Flow injection spectrophotometric determination of L-ascorbic acid in biological matters [J], Journal of Pharmaceutical and Biomedical Analysis, 29 (2002) 755-759
    [78] Ricardo J. Cassella, Flow injection spectrophotometric determination of copper in petroleum refinery wastewaters [J], Microchemical Journal, 72 (2002) 17-26
    [79] Simone Vicente, Nelson Maniasso, Zilvanir F. Queiroz, Elias A. G. Zagatto, Spectrophotometric flow-injection determination of nickel in biological materials [J], Talanta, 57 (2002) 475-480
    [80] Karina Omuro Lupetti, Iolanda Cruz Vieira, Orlando Fatibello-Filho, Flow injection spectrophotometric determination of isoproterenol using an avocado (Persea americana) crude extract immobilized on controlled-pore silica reactor [J], Talanta, 57 (2002) 135-143
    [81] Dalibor Satínsky, Rolf Karlícek, Antonín Svoboda, Using on-line solid phase extraction for flow-injection spectrophotometric determination of salbutamol[J], Analytica Chimica Acta, 455 (2002) 103-109
    [82] R. M. Bowie, The Chemiluminescence of Solid Sodium, J. Phys. Chem., 1931 35(10); 2964-2967
    [83] Ussher S. J., Yaqoob M., Achterberg E. P., Nabi A., Worsfold P. J., Effect of Model Ligands on Iron Redox Speciation in Natural Waters Using Flow Injection with Luminol Chemiluminescence Detection [J], Anal. Chem., 77 (2005) 1971-1978
    [84] Bowie A. R., Achterberg E. P., Sedwick P. N., Ussher S., Worsfold P. J., Real-Time Monitoring of Picomolar Concentrations of Iron(II) in Marine Waters Using Automated Flow Injection-Chemiluminescence Instrumentation [J], Environ. Sci. Technol., 36 (2002) 4600-4607
    [85] Zheng J.; Springston S. R.; Weinstein-Lloyd J., Quantitative Analysis of Hydroperoxyl Radical Using Flow Injection Analysis with Chemiluminescence Detection [J], Anal. Chem., 75 (2003) 4696-4700
    [90] Gerald G., Martin G. S., Hossein S., Hassan Y. A., Chemiluminescence Flow-Injection Immunoassays [J], Critical Reviews in Analytical Chemistry, 31 (2001) 167-174
    [91] Gerald G., Martin G. S., Hossein S., Hassan Y. A., Chemiluminescence Flow-injection Immunoassays [J], Critical Reviews in Analytical Chemistry, 31 (2001) 141-148
    [92] Sakchai Satienperakul, Terence J. Cardwell, Spas D. Kolev, Claire E. Lenehan, Neil W. Barnett, A sensitive procedure for the rapid determination of arsenic(III) by flow injection analysis and chemiluminescence detection [J], Analytica Chimica Acta, 554 (2005) 25-30
    [93] N. Ratanawimarnwong, N. Amornthammarong, N. Choengchan, P. Chaisuwan, M. Amatatongchai, P. Wilairat, I.D. McKelvie and D. Nacapricha, Determination of iodide by detection of iodine using gas-diffusion flow injection and chemiluminescence [J], Talanta, 65 (2005) 756-761
    [94] Mohammad Yaqoob, Abdul Nabi, Paul J. Worsfold, Determination of nanomolar concentrations of phosphate in freshwaters using flow injection with luminol chemiluminescence detection [J], Analytica Chimica Acta, 510 (2004) 213-218
    [95] Shilv Chen, Huichun Zhao, Xiaoli Wang, Xia Li, Linpei Jin, Determination of trivalent europium using flow injection chemiluminescence method [J], Analytica Chimica Acta, 506 (2004) 25-29
    [96] Baoxin Li, Zhujun Zhang, Juan Wang, Chunli Xu, Chemiluminescence system for automatic determination of chemical oxygen demand using flow injection analysis [J], Talanta, 61 (2003) 651-658
    [97] Afsaneh Safavi, Mohammad Ali Karimi, Flow injection chemiluminescence determination of hydrazine by oxidation with chlorinated isocyanurates [J], Talanta, 58 (2002) 785-792
    [98] Afsaneh Safavi, Mohammad Ali Karimi, Flow injection determination of cationic surfactants by using N-bromosuccinimide and N-chlorosuccinimide as new oxidizing agents for luminol chemiluminescence [J], Analytica Chimica Acta, 468 (2002) 53-63
    [99] Peter L. Croot, Patrick Laan, Continuous shipboard determination of Fe(II) in polar waters using flow injection analysis with chemiluminescence detection [J], Analytica Chimica Acta, 466 (2002) 261-273
    [100] Zhiming Rao, Xinrong Zhang, Willy R. G. Baeyens, Chemiluminescence flow injection analysis of 1,3-dichloro-5,5-dimethylhydantoin in swimming pool water [J], Talanta, 57 (2002) 993-998
    [101] 龚正君, 黄玉明, 章竹君, 流动注射化学发光法测定水中的苯酚[J], 分析化学, 30(2002)1123-1125
    [102] Wayne R. Wolf, Kent K. Stewart, Automated multiple flow injection analysis for flame atomic absorption spectrometry [J], Anal. Chem., 51(1979) 1201-1205
    [103] Tyson JF. Flow injection atomic spectrometry [J], Spectrochim. Acta Rev., 14 (1991) 169- 178
    [104] 康维钧, 孙汉文, 流动注射-原子光谱法分析铬价态研究进展[J], 冶金分析, 25 (2005) 27-30
    [105] 陈恒武, 刘劲松, 流动注射在线沉淀共沉淀预分离富集与原子光谱联用的进展[J], 理化检验-化学分册 35 (1999) 42-45
    [106] J. L. Burguera, M. Burguera, Flow injection-electrothermal atomic absorption spectrometry configurations: recent developments and trends [J], Spectrochimica Acta Part B: Atomic Spectroscopy, 56 (2001) 1801-1829
    [107] E. Vereda Alonso, A. García de Torres, J. M. Cano Pavón, Flow injection on-line electrothermal atomic absorption spectrometry [J], Talanta, 55 (2001) 219-232
    [108] Zhao-Lun Fang, Trends and potentials in flow injection on-line separation and preconcentration techniques for electrothermal atomic absorption spectrometry [J], Spectrochimica Acta Part B: Atomic Spectroscopy, 53 (1998) 1371-1379
    [109] 徐淑坤, 方肇伦, 流动注射在线分离浓集技术在原子吸收光谱分析中的应用[J], 分析化学 27 (1999) 845-854
    [110] M. C. Yebra, Continuous automatic determinations of organic compounds by flow injection–atomic absorption spectrometry [J], TrAC Trends in Analytical Chemistry, 19 (2000) 629-641
    [111] José A. Gomes Neto, Luís F. Zara, Julio C. Rocha, Ademir Santos, Carolina S. Dakuzaku, Joaquim A. Nóbrega, Determination of mercury in agroindustrial samples by flow-injection cold vapor atomic absorption spectrometry using ion exchange and reductive elution [J],Talanta, 51 (2000) 587-594
    [112] J. F. Tyson, R. I. Ellis, G. Carnrick, F. Fernandez, Flow injection hydride generation electrothermal atomic absorption spectrometry with in-atomizer trapping for the determination of lead in calcium supplements [J], Talanta 52 (2000) 403-410
    [113] Latif El?i, Zikri Arslan, Julian F. Tyson, Flow injection solid phase extraction with Chromosorb 102: determination of lead in soil and waters by flame atomic absorption spectrometry [J], Spectrochimica Acta Part B: Atomic Spectroscopy, 55 (2000) 1107-1114
    [114] Jean Yves Cabon, Nolwenn Cabon, Determination of arsenic species in seawater by flow injection hydride generation in situ collection followed by graphite furnace atomic absorption spectrometry: Stability of As(III) [J], Analytica Chimica Acta, 418 (2000) 19-31
    [115] M. Gallignani, M. Valero, M. R. Brunetto, J. L. Burguera, M. Burguera , Y. Petit de Pe?a, Sequential determination of Se(IV) and Se(VI) by flow injection-hydride generation-atomic absorption spectrometry with HCl/HBr microwave aided pre-reduction of Se(VI) to Se(IV) [J], Talanta, 52 (2000) 1015-1024
    [116] L.O. Leal, R. Forteza, V. Cerdà, Speciation analysis of inorganic arsenic by a multisyringe flow injection system with hydride generation–atomic fluorescence spectrometric detection [J], Talanta, 69 (2006) 500-508
    [117] Atanasse Coly, Jean-Jacques Aaron, Sensitive and rapid flow injection analysis of sulfonylurea herbicides in water with micellar-enhanced photochemically induced fluorescence detection [J], Analytica Chimica Acta, 39 (1999) 255-264
    [118] M. Teresa F., Beatriz C., José M. C., Rosario P., Alfredo S., Flow injection determination of nitrite by fluorescence quenching [J], Talanta, 62 (2004) 991-995
    [119] Zhouping Wang, Zhujun Zhang, Zhifeng Fu, Luqiu Fang, Wanfen Luo, Dinglong Chen, Xiao Zhang, Mushroom tissue-based flow-injection fluorescence system for the determination of isoprenaline [J], Analytica Chimica Acta, 494 (2003) 63-70
    [120] Huang-Hao Yang, Qing-Zhi Zhu, Hui-Ying Qu, Xiao-Lan Chen, Ma-Tai Ding, Jin-Gou Xu, Flow injection fluorescence immunoassay for gentamicin using sol-gel-derived mesoporous biomaterial [J], Analytical Biochemistry, 308 (2002) 71-76
    [121] Yi Lv, Zhujun Zhang, Zhengjun Gong, Yufei Hu, Deyong He, Determination and pharmacokinetics of ergometrine maleate in rabbit blood with on line microdialysis sampling and fluorescence detection [J], Journal of Pharmaceutical and Biomedical Analysis 38 (2005) 29–33
    [122] M. R. van Bommel, A. P. J. M. de Jong, U. R. Tjaden, H. Irth, J. van der Greef, Enzyme amplification as detection tool in continuous-flow systems: I. Development of an enzyme-amplified biochemical detection system coupled on-line to flow-injection analysis [J], Journal of Chromatography A, 855 (1999) 383-396
    [123] Sabine Buck, Kathrin Stein, Georg Schwedt, Use of a peroxidase reactor in flow injection analysis for the determination of chloramine and the inhibition kinetics [J], Analytica Chimica Acta, 390 (1999) 141-146
    [124] Patrícia Dantoni, Sílvia H. P. Serrano, Ana Maria Oliveira Brett, Ivano G. R. Gutz, Flow-injection determination of catechol with a new tyrosinase/DNA biosensor [J], Analytica Chimica Acta, 366 (1998) 137-145
    [125] Robert Wilson, Jens Kremesk?tter, David J. Schiffrin, James S. Wilkinson, Electrochemiluminescence detection of glucose oxidase as a model for flow injection immunoassays [J], Biosensors and Bioelectronics, 11 (1996) 805-810
    [126] Michele Del Carlo, Marco Mascini, Enzyme immunoassay with amperometric flow-injection analysis using horseradish peroxidase as a label. Application to the determination of polychlorinated biphenyls [J], Analytica Chimica Acta, 336 (1996) 167-174
    [127] Charles A. Lucy, Josephine S. W. Tsang, Determination of surfactant concentration using micellar enhanced fluorescence and flow injection titration [J], Talanta, 50 (2000) 1283-1289
    [128] Petr Kuban, Bo Karlberg, On-line monitoring of kraft pulping liquors with a valveless flow injection–capillary electrophoresis system [J], Analytica Chimica Acta, 404 (2000) 19-28
    [129] Jun Yin, Zucheng Jiang, Gang Chang, Bin Hu, Simultaneous on-line preconcentration and determination of trace metals in environmental samples by flow injection combined with inductively coupled plasma mass spectrometry using a nanometer-sized alumina packed micro-column [J], Analytica Chimica Acta, 540 (2005) 333-339
    [130] Alicia G., Lourdes A., María P., Paloma Y. S., José M. P., Flow injection and HPLC determination of furosemide using pulsed amperometric detection at microelectrodes [J], Journal of Pharmaceutical and Biomedical Analysis, 33 (2003) 923-933
    [131] 方惠群, 史坚, 倪君蒂, 仪器分析原理[M], 南京 南京大学出版社 1994 219-256
    [132] 潘教麦, 李在均, 张其颖, 方国臻, 新显色剂及其在光度分析中的应用[M], 北京 化学工业出版社 2003
    [133] Saowapha M., Ian D. M., Michael R. G., Mongkon R., Kate G,, Jaroon J., Duangjai N,, A reverse-flow injection analysis method for the determination of dissolved oxygen in fresh and marine waters [J], Talanta, 58 (2002) 1285-1291
    [134] Zhihai Xie, Jingchan Zhao, Reverse flow injection spectrophotometric determination of iodate and iodide in table salt [J], Talanta, 63 (2004) 339-343
    [135]Teraboon P., Surasak W., Vichitr R., Saisunee L., Reverse flow injection spectrophotometric determination of iron(III) using norfloxacin [J], Talanta, 58 (2002) 1293-1300
    [136] N. D. Yordanov, V. Gancheva, B. Mladenova, G. Grampp, Kinetic studies on the reaction between copper(II) ions and some dithiocarbonates using stopped-flow technique [J], Inorganic Chemistry Communications, 6 (2003) 54-57
    [137] Nicola D. Yordanov, Kalina Ranguelova, Gunther Grampp, Stopped-flow spectrophotometric study on the self-redox reaction of some dithiophosphinates with copper(II) [J], Inorganic Chemistry Communications, 3 (2000) 383-386
    [144] M. P. Ca?izares, M. T. Tena, M. D. Luque De Castro On line coupling of a liquid-liquid extraction flow-reversal system to a spectrophotometric flow-through sensor for the determination of polyphenols in olive oil [J], Analytica Chimica Acta, 323 (1996) 55-62
    [145] N. Chimpalee, D. Chimpalee, S. Lohwithee, L. Nakwatchara, D. Thorburn Burns, Flow injection extraction spectrophotometric determination of copper using bis(acetylacetone)ethylenediimine [J], Analytica Chimica Acta, 331 (1996) 253-256
    [146] Yongyi Luo, Shigenori Nakano, David A. Holman, Jaromir Ruzicka, Gary D. Christian, Sequential injection wetting film extraction applied to the spectrophotometric determination of chromium(VI) and chromium(III) in water [J], Talanta, 44(1997) 1563-1571
    [147] Sérgio L. C. F., Djane S. J., R. J. Cassella, Antonio C. S. C., Marcelo S. C., R. E. Santelli, An on-line solid phase extraction system using polyurethane foam for the spectrophotometric determination of nickel in silicates and alloys [J], Analytica Chimica Acta, 378 (1999) 287-292
    [138] Bianting Sun, Barry N. Noller, Simultaneous determination of trace amounts of free cyanide and thiocyanate by a stopped-flow spectrophotometric method [J], Water Research, 32 (1998) 3698-3704
    [139] Ke Zhang, Luyuan Mao, Ruxiu Cai, Stopped-flow spectrophotometric determination ofhydrogen peroxide with hemoglobin as catalyst [J], Talanta, 51 (2000) 179-186
    [140] Rui A. S. Lapa, José L. F. C. Lima, Jo?o L. M. Santos, Dual-stopped-flow spectrophotometric determination of amiloride hydrochloride in a multicommutated flow system [J], Analytica Chimica Acta, 407 (2000) 225-231
    [141] M. E. Palomeque, A. G. Lista, B. S. Fernández Band, Determination of V(V) by a kinetic stopped-flow FIA method with spectrophotometric detection [J], Analytica Chimica Acta, 366 (1998) 287-293
    [142] K. Uraisin, D. Nacapricha, S. Lapanantnoppakhun, K. Grudpan, S. Motomizu, Determination of trace amounts of bromide by flow injection/stopped-flow detection technique using kinetic-spectrophotometric method [J], Talanta, 68 (2005) 274-280
    [143] Rui-Yong Wang, Ying-Tang Lu, Kinetic spectrophotometric method for determination of perphenazine based on monitoring the oxidation intermediate by applying a stopped-flow technique [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 61 (2005) 791-797
    [148] L. G. Decnop-Weever, J. C. Kraak, Determination of sulphite in wines by gas-diffusion flow injection analysis utilizing spectrophotometric pH-detection [J], Analytica Chimica Acta, 337 (1997) 125-131
    [149] M. Catalá Icardo, J. V. García Mateo, J. Martínez Calatayud, Selective chlorine determination by gas diffusion in a tandem flow assembly and spectrophotometric detection with o-dianisidine [J], Analytica Chimica Acta, 443 (2001) 153-163
    [150] M. Kass, A. Ivaska, Spectrophotometric determination of sulphur dioxide and hydrogen sulphide in gas phase by sequential injection analysis technique [J], Analytica Chimica Acta, 449 (2001) 189-197
    [151] Raquel B.R. Mesquita and António O.S.S. Rangel, Gas diffusion sequential injection system for the spectrophotometric determination of free chlorine with o-dianisidine [J], Talanta, 68 (2005) 268-273
    [152] S. Blain, P. Treguer, Iron (II) and iron(III) detemination in sea water at the nanomolar level with selective on-line preconcentration and spectrophtometric determination [J], Analytica Chimica Acta, 308 (1995) 425-432
    [153] C. I. Measures, J. Yuan, J. A. Resing, Determination of iron in seawater by flow injection analysis using in-line preconcentration and spectrophotometric detection [J], Marine Chemistry 50 (1995) 3-12
    [154] M. F. Mousavi, A. R. Ghiasvand, A. R. Jahanshahi, Flow injection spectrophotometric determination of trace amounts of selenium [J], Talanta, 46 (1998) 1011-1017
    [155] 李益民, 金阳, 流动注射催化光度法测定苯胺 [J], 分析化学, 30 (2002) 378
    [156] 高楼军, 张志琪, 刘谦光, 药物中亚硝酸根的流动注射催化光度法分析[J],,分析化学, 26(1998)1298-1300
    [157] 刘秀萍, 陈浩汉, 张志琪, 反相流动注射催化光度法测定痕量铁[J], 分析化学25(1997) 986-988
    [158] 汪尔康, 21 世纪的分析化学 [M], 北京 科学出版社 1999
    [159] Ali A. Ensafi, B. Naderi, Flow-Injection Spectrophotometric Determination of Hydrazine [J], Microchemical Journal, 56 (1997) 269-275
    [160] J. Ferré, R. Boqué, B. Fernández-Band, M. S. Larrechi, F. X. Rius, Figures of merit in multivariate calibration. Determination of four pesticides in water by flow injection analysis and spectrophotometric detection [J], Analytica Chimica Acta, 348 (1997) 167-175
    [161] Javier Saurina, Santiago Hernández-Cassou, Flow-injection and stopped-flow completely continuous flow spectrophotometric determinations of aniline and cyclohexylamine [J], Analytica Chimica Acta, 396 (1999) 151-159
    [162] 范世华, 方肇伦, 环境水中化学需氧量的 FI 分光光度法自动在线检测 [J], 分析科学学报, 12 (1996) 103-106
    [163] 汪海涛, 郎惠云, 谭峰, 董发昕, 磺胺甲基异恶唑的流动注射单纯形优化光度分析 [J], 西北大学学报(自然科学版), 33 (2003) 61-64
    [164] 訾言勤, 覃淑琴, 施宏亮, 流动注射-分光光度法间接测定微量苯胺 [J], 分析化学, 30 (2002) 1483
    [165] 杜鸣, 梁芳珍, 唐波, 沈含熙, 流动注射-光度法测定超氧阴离子自由基(O2-·)与超氧化物歧化酶(SOD)活性的研究 [J], 高等学校化学学报, 20 (1999) 369-373
    [166] 李益民, 金阳, 流动注射催化光度法测定苯胺 [J], 分析化学, 30 (2002) 378
    [167] 颜流水, 邓安民, 魏洽, 流动注射分光光度法测定废水中挥发酚[J], 化工环保, 19 (1999) 365-368
    [168] 常慧, 杨建男, 流动注射光度法测定废水中的对苯二胺 [J], 分析化学, 22 (1994) 1285
    [169] 樊静, 吕辉雄, 冯素玲, 叶存玲, 流动注射在线分离分光光度法测定痕量总酚 [J], 分析化学, 31 (2003) 1199-1201
    [170] 康春莉, 李文艳, 包国章, 李军, 杜尧国, 赵芳, 流动注射在线吸附紫外分光光度法测定水体中的苯酚 [J], 吉林大学自然科学学报, 3 (2001) 106-108
    [171] 王英, 康春莉, 李润博, 杜尧国, 李军, 流动注射在线液-液萃取分光光度法测定水中的痕量酚 [J], 吉林大学自然科学学报, 2 (2000) 97-100
    [172] 李新云, 王晶晶, 李惕川, 张宝泉, 邱雪梅, 模糊聚类-因子分析光度法同时测定工业废水中多组分酚 [J], 北京工业大学学报, 23 (1997) 7-17
    [173] 徐华华, 陈剑宏, 蒋理, 膜萃取分离流动注射紫外分光光度法测定水样中的五氯苯酚 [J], 化学世界, 1 (1994) 23-25
    [174] 柳仁民, 李蛟, 在线液膜萃取富集流动注射分光光度法测定水中挥发酚 [J], 分析化学, 31(2003) 594-597
    [175] Amin T. Haj-Hussein, Flow injection spectrophotometric determination of cyanide by the phenolphthalin method [J], Talanta, 44 (1997) 545-551
    [176] Hermin Sulistyarti, Terence J. Cardwell and Spas D. Kolev, Determination of cyanide as tetracyanonickelate(II) by flow injection and spectrophotometric detection [J], Analytica Chimica Acta, 357 (1997) 103-109
    [177] 孙青萍, 流动注射光度法测定水中氰化物 [J], 理化检验-化学分册, 40 (2004) 1 35-36
    [178] 王镇浦, 吴宏, 高秀平, 陈国松, 水中痕量氰化物的反相流动注射-分光光度测定 [J], 环境科学, 20 (1999) 11 91-93
    [179] José Anchieta Gomes Neto, Ronaldo Montes, Arnaldo A. Cardoso, Spectrophotometric detection of arsenic using flow-injection hydride generation following sorbent extraction preconcentration [J], Talanta, 50 (1999) 959-966
    [180] Thusitha R., Terence J. C., Robert W. C., Maria D. L. Castro, Spas D. Kolev, Pervaporation-flow injection determination of arsenic based on hydride generation and the molybdenum blue reaction [J], Analytica Chimica Acta, 445 (2001) 229-238
    [181] Thusitha R., Terence J. C., Robert W. C., Ian D. Potter, Spas D. Kolev, Determination of arsenic by pervaporation-flow injection hydride generation and permanganate spectrophotometric detection [J], Analytica Chimica Acta, 510 (2004) 225-230
    [182] 陈菊, 赵书林, 交替注入流动注射分光光度法同时测定镉和汞 [J], 冶金分析, 20 (2000) 8-11
    [183] 李舒婷, 赵书林, 流动注射分光光度法测定微量镉的研究 [J], 分析科学学报, 16 (2000) 134-137
    [184] Adem A., Ibrahim I., Muberra A., Fatih Y., A simple and selective flow-injection spectrophotometric determination of copper(II) by using acetylsalicylhydroxamic acid [J],Talanta, 60 (2003) 861-866
    [185] Ricardo J. Cassella, Flow injection spectrophotometric determination of copper in petroleum refinery wastewaters [J], Microchemical Journal, 72 (2002) 17-26
    [186] Ibrahim Is?ldak, Adem Asan, Müberra Andac Spectrophotometric determination of copper(II) at low μg l?1 levels using cation-exchange microcolumn in flow-injection [J], Talanta, 48 (1999) 219-224
    [187] 张永清, 王立世, 陈焕光, 合并带流动注射分光光度法测定合金中铜的研究 [J], 冶金分析, 24 (2004) 8-10
    [188] 郭忠先, 流动注射分光光度法测定微量铜的研究 [J], 13 (1997) 3 228-230
    [189] 刘伟民, 陈晓青, 徐金华, 催化动力学-流动注射停流分光光度法测定微量汞的研究 [J], 分析试验室, 20 (2001) 73-75
    [190] 郭忠先, 用 2-羟基-3-羧基-5-磺酸基苯重氮氨基偶氮苯流动注射分光光度法测定汞 [J], 分析化学, 24 (1996) 459-462
    [191] 李继东, 王长华, 郑永章, 伍星, 流动注射法在线测定氨性废水中的镍 [J], 分析试验室, 23 (2004) 6-8
    [192] 吴宏, 王镇浦, 陈国松, 流动注射分光光度法测定痕量镍(II)的研究 [J], 冶金分析, 19 (1999) 15-17
    [193] 曲祥金, 周杰, 尹洪宗, 流动注射分析光度法同时测定镍和铁 [J], 分析化学, 25 (1997) 2 168-171
    [194] Renmin Liu, Huaisheng Wang, Ailing Sun, Daojie Liu, Reversed flow injection spectrophotometric determination of trace amount of ammonia in natural water by oxidation of ammonia to nitrite [J], Talanta, 45 (1997) 405-410
    [195] 王胜天, 丁兰, 秦玉华, 闫吉昌, 固体涂层吸收采样流动注射光度法测定大气中的二氧化氮 [J], 分析化学, 33 (2005) 1730-1732
    [196] 张景飞, 牛晓君, 马宏瑞, 王晓蓉, 流动注射分光光度法测定水体总磷 [J], 分析化学, 30 (2002) 839-842
    [197]Xuan-Feng Yue, Zhi-Qi Zhang, Hong-Tao Yan, Flow injection catalytic spectrophotometric simultaneous determination of nitrite and nitrate [J], Talanta, 62 (2004) 97-101
    [198] R. Segarra Guerrero, C. Goméz Benito, J. Martínez Calatayud, Flow-injection analysis-spectrophotometric determination of nitrite and nitrate in water samples by reaction with proflavin [J], Talanta, 43 (1996) 239-246
    [199] A. Kazemzadeh, Ali A. Ensafi, Simultaneous determination of nitrite and nitrate in varioussamples using flow-injection spectrophotometric detection [J], Microchemical Journal, 69, (2001) 61-68
    [200]Silvia R.P. Meneses, Nelson Maniasso, Elias A.G. Zagatto, Spectrophotometric flow-injection determination of sulphate in soil solutions [J], Talanta, 65 (2005) 1313-1317
    [201] 赵婷, 戴红, 张宗才, 流动注射分光光度法测定水中硫离子[J], 化学研究与应用, 16 (2004) 843-845
    [202] Claudineia R. Silva, Heberth J. Vieira, Larissa S. Canaes, Joaquim A. Nóbrega, Orlando Fatibello-Filho, Flow injection spectrophotometric method for chloride determination in natural waters using Hg(SCN)2 immobilized in epoxy resin [J], Talanta, 65 (2005) 965-970
    [203] Ali A. Ensafi, B. Rezaei, S. Nouroozi, Highly selective spectrophotometric flow-injection determination of trace amounts of bromide by catalytic effect on the oxidation of m-cresolsulfonephthalein by periodate [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 60 (2004) 2053-2057
    [204] Ali A. Ensafi, M. Arab Chamjangali, Sequential flow injection determination of iodate and periodate with spectrophotometric detection [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 59 (2003) 2897-2903
    [205] Ali A. Ensafi, M. Arab Chamjangali, Flow-injection spectrophotometric determination of periodate and iodate by their reaction with pyrogallol red in acidic media [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 58 (2002) 2835-2839
    [206] Zhihai Xie, Jingchan Zhao, Reverse flow injection spectrophotometric determination of iodate and iodide in table salt [J], Talanta, 63(2004) 339-343
    [207] Juan A. A., Anabel R., Alejandro C. O., Susana Di N., Marcelo P., Adriana L., Beatriz S. Fernández B., Fast spectrophotometric determination of fluoride in ground waters by flow injection using partial least-squares calibration [J], Analytica Chimica Acta, 512 (2004) 157-163
    [208] Katsuhisa S., Tetsuro S., Hisao K., Shigenori N., Automatic microdistillation flow-injection system for the spectrophotometric determination of fluoride [J], Talanta, 66 (2005) 80-85
    [209] S. Lunvongsa, M. Oshima, S. Motomizu Determination of total and dissolved amount of iron in water samples using catalytic spectrophotometric flow injection analysis [J], Talanta, 68 (2006) 969-973
    [210] M.I Pascual-Reguera, I Ortega-Carmona, A Molina-Dia?z Spectrophotometric determination of iron with ferrozine by flow-injection analysis [J], Talanta, 44 (1997) 1793-1801
    [211] T. G. Dzherayan, V. M. Shkinev, L. K. Shpigun, P. M. Kamilova, K. E. Geckeler, Water-soluble polymers for spectrophotometric and flow injection determination of cobalt with nitroso-R-salt [J], Talanta, 57 (2002) 7-13
    [212] M. Andac, A. Asan, I. Isildak, H. Cesur, Flow-injection spectrophotometric determination of cobalt(II) at low μg l?1 levels with 4-benzylpiperidinedithiocarbamate [J], Analytica Chimica Acta, 434 (2001) 143-147
    [213] M. F. Mousavi, A. R. Ghiasvand, A. R. Jahanshahi Flow injection spectrophotometric determination of trace amounts of selenium [J], Talanta, 46 (1998) 1011-1017
    [214] 樊静, 陈亚红, 冯素玲, 流动注射在线分离预浓集分光光度法测定环境水样中的痕量铬(Ⅵ) [J], 分析试验室, 23 (2004) 70-72
    [215] Aristidis N. A., Demetrius G. T., John A. S., Selective stopped-flow injection spectrophotometric determination of palladium(II) in hydrogenation and automobile exhaust gas converter catalysts [J], Analytica Chimica Acta, 412 (2000) 161-167
    [216] Ali A. Ensafi, M. Arab Chamjangali, Flow injection catalytic determination of ruthenium with spectrophotometric detection [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 56 (2000) 1583-1588
    [217] Ali A. Ensafi, M. Arab Chamjangali, H. Rrahimi Mansour, Catalytic spectrophotometric determination of ruthenium by flow injection method [J], Talanta, 55 (2001) 715-720
    [218] Aristidis N. Anthemidis, Demetrius G. Themelis, John A. Stratis, Stopped-flow injection liquid–liquid extraction spectrophotometric determination of palladium in airborne particulate matter and automobile catalysts [J], Talanta, 54 (2001) 37-43
    [219] Zeng Zuotao, T. McCreedy, Alan Townshend, Flow-injection spectrophotometric determination of gold using 5-(4-sulphophenylazo)-8-aminoquinoline [J], Analytica Chimica Acta, 401 (1999) 237-241
    [1] 毛跟年, 许牡丹, 黄建文, 环境中有毒有害物质与分析检测[M], 北京: 化学工业出版社 p183
    [2] L. H. Foster, S. Sumar, methods of analysis used for the determination of selenium in milk and infant formulae: a review [J], Food Chemistry, 53(1995) 453-466
    [3] Moreda-Pineiro Jorge, Moscoso-Perez Carmen, Lia Purificacion et. al.; Multivariate optimisation of hydride generation procedures for single element determinations of As, Cd, Sb and Se in natural waters by electrothermal atomic absorption spectrometry [J], Talanta, 53(2001), 871-883
    [4] Tyson Julian F., Sundin Nils G., Hanna Christopher P., McIntosh Susan A., Determination of Se in urine by flow injection hydride generation electrothermal atomic absorption spectrometry with in-atomizer trapping [J], Spectrochimica Acta Part B: Atomic Spectroscopy, 52(1997) 1773-1781
    [5] 李晓明, 胡宏, 丁基罗丹明 B-硫氰酸盐-吐温-20 体系高灵敏分光光度法测定微量硒的研究 [J], 分析化学, 17 (1989) 1119-1121
    [6] Abbas Afkhami, Tayyebhe Madrakian, Kinetic-spectrophotometric determination of selenium in natural water after preconcentration of elemental selenium on activated carbon [J], Talanta, 58 (2002) 311-317
    [7] R. Gurkan, M. Akcay, Kinetic spectrophotometric determination of trace amounts of selenium based on the catalytic reduction of maxilon blue-SG by sulfide [J], Microchem. J., 75 (2003) 39-49.
    [8] Betul Arikan, Melda Tuncay, Resat Apak, Sensitivity enhancement of the methylene blue catalytic-spectrophotometric method of selenium (IV) determination by CTAB [J], Analytica Chimica Acta, 335 (1996) 155-167
    [9] Mindak William R., Dolan Scott P., Determination of Arsenic and Selenium in Food using a Microwave Digestion–Dry Ash Preparation and Flow Injection Hydride Generation Atomic Absorption Spectrometry [J], J. Food Compos. Anal., 12 (1999) 111-122
    [10] Wei Lei, Gupta Parul, Hernandez Robert, Farhat Fadia, Determination of ultratrace selenium and arsenic at parts-per-trillion levels in environmental and biological samples byatomic fluorescence spectrometry with flow injection hydride generation technique [J], Microchem. J., 62(1999) 83-98.
    [11] W. W. Ding, R. E. Sturgeon, Evaluation of electrochemical hydride generation for the determination of arsenic and selenium in sea water by graphite furnace atomic absorption with in situ concentraion [J], Spectrochim. Acta B, 51 (1996) 1325-1334
    [12] Rosa Moreno Camero, R. E. Sturgeon, Hydride generation-electrostatic deposition-graphite furnace atomic absorption spectrophotometric determination of arsenic, selenium and antimony [J], Spectrochim. Acta B, 54 (1999) 753-762
    [13] Jorge Moreda-Pineiro, Carmen Moscoso-Perez, Purificacion Lopez-Mahia, Soledad Muniategui-Lorenzo, Esther Fernandez-Fernandez, Dario Prada-Rodriguez. Multivariate optimization of hydride generation procedures for single element determination of As, Cb, Sb and Se in natural waters by electrothermal atomic absorption spectrometry [J], Talanta, 53 (2001) 871-883
    [14] Cabon Jean Yves, Erler Wolfgang, Determination of selenium species in seawater by flow injection hydride generation in situ trapping followed by electrothermal atomic absorption spectrometry [J], Analyst, 123 (1998) 1565-1569
    [15] He Youzhao, Moreda-Pineiro Jorge, Cervera M. Luisa, de la Guardia Miguel; Completely integrated online determination of dissolved selenium (IV) and total inorganic selenium in sea-water by flow injection hydride generation atomic fluorescence spectrometry [J], J Anal. Atom. Spectrom., 13 (1998) 289-293.
    [16] Li Jing, Wan Ping, Yang Shuhai, Wang Lexin. Determination of trace dissolved selenium and its speciation in seawater with HG-AFS [J], Qingdao Haiyang Daxue Xuebao, 29 (Supp1. 1999) 142-418
    [17] Pozebon Dirce, Dressler Valderi L., Curtius Adilson J., Determination of copper, cadmium, lead, bismuth and selenium (IV) in sea-water by electrothermal vaporization inductively coupled plasma mass spectrometry after online separation [J], J Anal. Atom. Spectrom., 13 (1998) 363-369
    [18] Santosa, Sri Juari, Mokudai Hiroshige, Tanaka Shigeru, Automated continuous-flow hydride generation with inductively coupled plasma mass spectrometric detection for thedetermination of trace amounts of selenium (IV), and total antimony, arsenic and germanium in sea-water [J]. J Anal. Atom. Spectrom., 12 (1997) 409-415
    [19] Rao T. Prasada, Anbu M. Reddy, M. L. P., Iyer C. S. P., Damordaran A. D.; Coprecipitative preconcentration and differential pulse cathodic stripping voltammetric determination of selenium (IV) [J], Anal. Lett., 29 (1996) 2563-2571
    [20] 戚文彬, 陈笑梅, 非离子表面活性剂存在下流动注射催化光度法测定痕量硒 [J], 分析化学, 19 (1991) 433-435
    [21] M. F. Mousavi, A. R. Ghiasvand, A. R. Jahanshahi, Flow injection spectrophotometric determination of trace amounts of selenium [J], Talanta, 46(1998) 1011-1017
    [22] Mendez Hortensia, Alava Fausto, Lavilla Isela, Bendicho Carlos, Ultrasonic extraction combined with fast furnace analysis as an improved methodology for total selenium determination in seafood by electrothermal-atomic absorption spectrometry [J], Anal. Chim. Acta, 452 (2002) 217-222
    [23] Stripeikis Jorge, Pedro Juana, Bonivardi Adrian, Tudino Mabel, Determination of selenite and selenate in drinking water: a fully automatic on-line separation/pre-concentration system coupled to electrothermal atomic spectrometry with permanent chemical modifiers [J], Anal. Chim. Acta, 502 (2004) 99-105
    [24] Baogui Zhang, Yan Wang, Xinsheng Wang, Xulong Chen, Jianxing Feng, Determination of antimony, arsenic, bismuth, selenium, tellurium and tin by low pressure atomic absorption spectrometry with a quartz tube furnace atomizer and hydride generation with air addition [J]. Talanta, 42 (1995), 1095-1098
    [25] Semenova N. V., Leal L. O., Forteza R., Cerda V., Multisyringe flow injection system for total inorganic selenium determination by hydride generation-atomic fluorescence spectrometry [J], Anal. Chim. Acta, 486 (2003) 217-225
    [26] Gamiz-gracia L., Luque de Castro M. D., Determination of selenium in nutritional supplements and shampoos by flow injection-hydride generation-atomic fluorescence spectrometry [J], Talanta, 50 (1999), 875-880
    [27] Smrkolj P., Stibilj V., Determination of selenium in vegetables by hydride generation atomic fluorescence spectrometry[J], Anal. Chim. Acta, 512(2004) 11-17
    [28] Zhang Bicheng, Xu Hui, Yu Jimmy C., Determination of total gaseous selenium in atmosphere by honeycomb denuder/differential pulse cathodic stripping voltammetry [J], Talanta, 57 (2002), 323-331
    [29] Lange Britta, van den Berg, Constant M. G., Determination of selenium by catalytic cathodic stripping voltammetry [J], Anal. Chim. Acta, 418 (2000) 33-42
    [30] Elleouet C., Quentel F. Madec C., Determination of inorganic and organic selenium species in natural waters by cathodic stripping voltammetry [J], Water Research, 30 (1996) 909-914
    [31] Ferri Tommaso, Rossi Silvia, Sangiorgio Paola, Simultaneous determination of the speciation of selenium and tellurium in geological matrices by use of an iron (III)-modified chelating resin and cathodic stripping voltammetry [J], Anal. Chim. Acta, 361 (1998) 113-123
    [32] Sun Y. C., Yang J. Y., Simultaneous determination of arsenic (III, V), selenium (IV, VI), and antimony (III, V) in natural water by coprecipitation and neutron activation analysis [J], Anal. Chim. Acta, 395 (1999) 293-300
    [33] Czauderna marian, Determination of Selenium in Biological Materials by Neutron Activation Analysis [J], Applied Radiation and Isotopes (Incorporating Nuclear Geophysics), 47 (1996) 735-737
    [34] Rodriguez G. C., Rivero A. H., Bermudez J. M., Determination of selenium in nickel and cobalt concentrates applying epithermal neutron activation analysis [J], Occupational Health and Industrial Medicine, 38 (1998) 219
    [35] Van Dael P., Barclay D., Longer K., Metairon S., Fay L. B., Determination of selenium stable isotopes by gas chromatography–mass spectrometry with negative chemical ionization [J], J of Chromatography B, 715 (1998) 341-347.
    [36] Li Fangshi, Goessler Water, Irgolic Kurt J., Determination of trimethylselenonium iodide, selenomethionine, selenious acid, and selenic acid using high-performance liquid chromatography with on-line detection by inductively coupled plasma mass spectrometry or flame atomic absorption spectrometry [J], J of Chromatography A, 830 (1999) 337-344.
    [37] Chatterjee Amit, Shibata Y., Tanaka A., Morita M., Determination of selenoethionine by flow injection-hydride generation-atomic absorption spectrometry/high-performance liquidchromatography-hydride generation-high power nitrogen microwave-induced plasma mass spectrometry [J], Anal. Chim. Acta, 436 (2001) 253-263
    [38] Chatterjee Amit, Tao Hiroaki, Shibata Yasuyuki, Morita Masatoshi, Determination of selenium compounds in urine by high-performance liquid chromatography–inductively coupled plasma mass spectrometry [J], J. of Chromatography A, 997 (2003) 249-257
    [39] Dzierzgowska Malgorzata, Pyrzynska Krystyna, Pobozy Ewa, Capillary electrophoretic determination of inorganic selenium species [J], J. of Chromatography A, 984 (2003) 291-295
    [40] C. I. Measures, J.Yuan, J.A. Resing, Determiantion of iron in seawater by flow injection analysis using in-line preconcentration and spectrophotometric detection [J], Mar. Chem., 50 (1995) 3-12
    [41] Jingfeng Wu, Edward A. Boyle. Determination of iron in seawater by high-resolution isotope dilution inductively coupled plasma mass spectrometry after Mg(OH)2 coprecipitation [J], Anal. Chem. Acta., 367 (1998) 183-191.
    [42] Carolina Mendiguchia, Carlos Moreno, Manuel Garcia-Vargas, Determination of copper in seawater based on a liquid membrane preconcentration system [J], Anal. Chim. Acta, 460 (2002) 35-40
    [43] J.Y. Cabon, Determination of Cu and Mn in seawater by graphite furnace atomic absorption spectrometry with the use of hydrofluoric acid as a chemical modifier [J], Spectrochim. Acta B 57 (2002) 939-950
    [44] Standards Press of China GB17378.4-1998 [M]; The specification for marine monitoring Part IV: Seawater analysis p60-62
    [1] http://www.sucarena.com/luntuan/dispbbs.asp?boardid=26&ID=631
    [2] 国家环境保护总局科技标准司. 中国环境保护标准汇编(1979-2000,水环境分册) [M],水质 亚硝酸盐氮的测定 分光光度法 GB 7493-87[M]. 北京:中国环境科学出版社,2001:284-288
    [3] Katrina M. Miranda,1 Michael G. Espey, and David A. Wink, A Rapid, Simple Spectrophotometric Method forSimultaneous Detection of Nitrate and Nitrite [J], Biologyand Chemistry, 5 (2001) 62–71
    [4] 赵康, 任玉贝, 李文遐,3,3’,5,5’-四甲基联苯胺吸光光度法测定水中 NO2--N [J], 理化检验——化学分册, 35 (1999) 559-560
    [5] Xuexin Gu, Tianze Zhou, Dayong Qi, Determination of trace nitrite ion in water by spectrophotometric method after preconcentraion on an organic solvent-soluble membrane filter [J], Talanta, 43 (1996) 169-175
    [6] T. Kawakami, S. Igarashi, Highly sensitive spectrophotometric determinaion of nitrite ion using 5, 10, 15, 20-tetrakis (4-aminophenyl) porphine for application to natural waters [J], Analytica Chimica Acta, 333 (1996) 175-180
    [7] Abbas Afkhami, Morteza Bahram, Somayeh Gholami, Zahra Zand, Micell-mediated extraction for the spectrophotometric determination of nitrite in water and biological samples based on its reaction with p-nitroaniline in the presence of diphenylamine [J], Analytical Biochemistry, 336 (2005) 295–299
    [8] V. V. Nikonorov, L. N. Moskvin, Spectrophotometric determination of nitrite with 4-iodo-N, N-dimthylaniline [J], Analytica Chimica Acta, 306 (1995) 357-360
    [9] 刘希东, 间苯二酚偶联反应测定痕量亚硝酸根的光度法研究 [J], 渝西学院学报(自然科学版), 2 (2003) 22-24
    [10] M. Barzegar, M. F. Mousavi, A. Nemati, Kinetic spectrophotometric determination of traceamounts of nitrite by its reaction with molybdosilicic acid blue [J], Microchemical Journal, 65 (2000) 159-163
    [11] 牛建平,催化分光光度法测定水中痕量亚硝酸盐氮 [J], 河南师范大学学报(自然科学版), 27 (1999) 51-54
    [12] 刘建平, 李锦英, 刘继平, 催化光度法测定肉制品中亚硝酸盐[J], 理化检验——化学分册, 36 (2000) 305-306
    [13] Jamshid L. Manzoori, Mohammad H. Sorouraddin, Ali M. Haji-Shabani, Spectrophotometric determination of nitrite based on its catalytic effect on the oxidation of carminic acid by bromate [J], Talanta, 46 (1998) 1379-1386
    [14] Ali A. Ensafi, A. Kazemzadeh, Simultaneous determination of nitrite and nitrate in various samples using fow injection with spectrophotometric detection [J], Analytica Chimica Acta,382 (1999) 15-21
    [15] Zhang Zhi-Qi, Gao Lou-Jun, Zhan Han-Ying, Flow-injection catalytic spectrophotometric determination of nitrite using the redox reaction between naphthol green B and potassium bromate [J], Talanta, 47 (1998) 497-501
    [16] A. Kazemzadeh, Ali A. Ensafi, Simultaneous determination of nitrite and nitrate in various samples using flow-injection spectrophotometric detection [J], Microchemical Journal, 69 (2001) 159-166
    [17] M. J. Ahmed, C. D. Stalikas, S. M. Tzouwara-Karayanni, M. I. Karayannis, Simultaneous spectrophotometric determination of nitrite and nitrate by flow-injection analysis [J], Talanta, 43 (1996) 1009-1018
    [18] Anatol Kojlo, Ewa Gorodkiewicz, Simultaneous spectrophotometric determination of nitrite and nitrate in a flow-injection system [J], Analytica Chimica Acta, 302 (1995) 283-287
    [19] Daniel C. Siu, Alan Henshall, Ion chromatographic determination of nitrate and nitrite in meat products [J], Journal of Chromatography A, 804 (1998) 157-160
    [20] Murad I.H. Helaleh, Takashi Korenaga, Ion chromatographic method for simultaneous determination of nitrate and nitrite in human saliva [J], Journal of Chromatography B, 744 (2000) 433-437
    [21] Constantine D. Stalikas, Constantina N. Konidari, Christos G. Nanos, Ion chromatographic method for the simultaneous determination of nitrite and nitrate by post-column indirect fluorescence detection [J], Journal of Chromatography A, 1002 (2003) 237-241
    [22] Kazuaki Ito, Yohichi Takayama, Nobuyuki Makabe, Ryo Mitsui, Takeshi Hirokawa, Ion chromatography for determination of nitrite and nitrate in seawater using monolithic ODS columns [J], Journal of Chromatography A, 1083 (2005) 63-67
    [23] Vera Jedlickova, Zoltan Paluch, Stefan Alusyk, D etermination of nitrate and nitrite by high-performance liquid chromatography in human plasma [J], Journal of Chromatography B, 780 (2002) 193-197
    [24] Hui Li, Cynthia J. Meininger, Guoyao Wu, Rapid determination of nitrite by reversed-phase high-performance liquid chromatography with fluorescence detection [J], Journal of Chromatography B, 746 (2000) 199-207
    [25] Marcelo Nicolas Muscara, Gilberto de Nucci, Simultaneous determination of nitrite and nitrate anions in plasma, urine and cell culture supernatants by high-performance liquid chromatography with post-column reactions [J], Journal of chromatography B, 686 (1996) 157-164
    [26] Keiichi Fukushi, Yusuke Nakayama, Jun-ichi Tsujimoto, H ighly sensitive capillary zone electrophoresis with artificial seawater as the background electrolyte and transient isotachophoresis as the on-line concentration procedure for simultaneous determination of nitrite and nitrate in seawater [J], Journal of Chromatography A, 1005 (2003) 197-205
    [27] Fuyu Guan, Huifang Wu, Yi Luo, Sensitive and selective method for direct determinaion of nitrite and nitrate by high-performance capillary electrophoresis [J], Journal of Chromatography A, 719 (1996) 427-433
    [28] Takashi Miyado, Yoshihide Tanaka, Hidenori Nagai, Sahori Takeda, Keiitsu Saito, Keiichi Fukushi, Yasukazu Yoshida, Shin-ichi Wakida, Etsuo Niki, Simultaneous determination of nitrate and nitrite in biological fluids by capillary electrophoresis and preliminary study on their determination by microchip capillary electrophoresis [J], Journal of Chromatography A, 1051 (2004) 185-191
    [29] Keiichi Fukushi, Koji Tada, Sahori Takeda, Shin-ichi Wakida, Masataka Yamane, Kunishige Higashi, Kazuo Hiiro, Simultaneous determination of nitrate and nitrite ions in seawater by capillary zone electrophoresis using artificial seawater as the carrier solution [J], Journal of Chromatography A, 838 (1999) 303-311
    [30] Xian Zhang, Hong Wang, Ni-Na Fu, Hua-Shan Zhang, A fluorescence quenching method for the determination of nitrite with Rhodamine 110 [J], Spectrochimica Acta Part A, 59 (2003) 1667-1672
    [31] Nianqin Jie, Duanling Yang, Quibin Jiang, Qiang Zhang, and Lu Wei, A Fluorescence Quenching Method for the Determination of Nitrite with Indole [J], Microchemical Journal, 62 (1999) 371-376
    [32] Murad I.H. Helaleh, T. Korenaga, Fluorometric determination of nitrite with acetaminophen [J], Microchemical Journal, 64 (2000) 241-246
    [33] Nianqin Jie, Zhikun Si, Jinghe Yang, Zhuang Miao, Xirong Huang, Qiang Zhang,Zhongqing Song, Fluorometric determination of traces of nitrite with rhodamine 6G [J], Microchemical Journal, 55 (1997) 351-356
    [34] Mauro Bertotti, Derek Pletcher, Amperometric determination of nitrite via reaction with iodide using microelectrodes [J], Analytica Chimica Acta, 337 (1997) 49-55
    [35] Lu Guanghan, Jin Hong, Song Dandan, Determination of trace nitrite by anodic stripping voltammetry [J], Food Chemistry, 59 (1997) 583-587
    [36] 龚正君, 章竹君, 流动注射化学发光法监测环境水中的亚硝酸盐 [J], 西南交通大学学报 38 (2003) 491-493
    [37] Chao Lu, Feng Qu, Jin-Ming Lin, Masaaki Yamada, Flow-injection chemiluminescent determination of nitrite in water based on the formation of peroxynitrite from the reaction of nitrite and hydrogen peroxide [J], Analytica Chimica Acta, 474 (2002) 107-114
    [38] Mian Jiang, Fang Jiang, Jin Duan, Xueyuan Tang, Zaofan Zhao, Spectrophotometric determination of trace nitriate based on catalytic oxidation of thionine by potassium bromate [J]. Anal. Chem. Acta, 234 (1990) 403-407
    [1] Haskins J.E., Kendall H., Baird R.B., A low level spectrophotometric method for the determination of sulfite in water [J], Water Research, 18 (1984) 751-753
    [2] Soares M.H.F.B., Ramos L.A., Cavalheiro E.T.G., Spectrophotometric determination of total sulfite in white wine samples using crude extracts from flowers [J], Journal of Chemical Education, 79 (2002) 1111-1113
    [3] Okumura M., Fujinaga K., Seike Y., Nagashima A., In situ preconcentration method for thiosulfate and sulfite in environmental water samples using solid-phase extraction followed by a spectrophotometric determination [J], Bunseki Kagaku, 47 (1998) 985-991
    [4] 张文德, 利用碱性品红的加成反应动力学光度法测定痕量亚硫酸盐 [J], 分析化学, 23 (1995) 1405-1408
    [5] 张文德, 通气蒸馏-孔雀石绿加成反应动力学光度法测定痕量亚硫酸盐 [J], 理化检验——化学分册, 35 (1999) 16-18
    [6] 王碧英, 李兵, 李鸿业, 分光光度法直接测定水中亚硫酸盐的研究 [J], 化学研究, 10 (1999) 44-46
    [7] 狄俊伟, 孟良荣, 高秀萍, 李文遐, 酶光度分析法测定痕量亚硫酸盐 [J], 苏州大学学报(自然科学), 16 (2000) 68-71
    [8] 金米聪, 范建中, 颜金良, 王立, 萃取分光光度法测定白砂糖中微量亚硫酸盐 [J], 食品与发酵工业, 25 (1999) 49-51
    [9] 唐洪, 魏加海, 崔道林, 宋金林, 周立东, 三乙醇胺对品红光度法测定发酵酒中亚硫酸盐 [J], 卫生研究, 24 (1995) 180-181
    [10] 门瑞芝, 魏波, 张新祥, 光动力学法测定食品中的亚硫酸盐 [J],吉林大学自然科学学报, 2 (1999) 93-95
    [11] Fatibello-Filho O., Vieira I.D.C., Flow injection spectrophotometric determination of sulfite using a crude extract of sweet potato root (Ipomoea batatas (L.) Lam.) as a source of polyphenol oxidase [J], Analytica Chimica Acta, 354 (1997) 51-57
    [12] Ghasemi J., Mohammadi D.E., Kinetic spectrophotometric determination of sulfite using a full curve (PLS) and a fixed time method [J], Analytical Letters, 36 (2003) 2243-2254
    [13] L. G. Decnop-weever, J. C. Kraak, Determination of sulphite in wines by gas-diffusion flow injection analysis utilizing spectrophotometric pH-detection [J], Analytica Chimica Acta, 337 (1997) 125-131
    [14] Silva, R.L.G.N.P., Silva, C.S.c, Nóbrega, J.A.b, Neves, E.A, Flow injection spectrophotometric determination of free and total sulfite in wines based on the induced oxidation of manganese(II) [J], Analytical Letters, 31 (1998) 2195-2208
    [15] McFeeters R. F., Barish A. O., Sulfite Analysis of Fruits and Vegetables by High-Performance Liquid Chromatography (HPLC) with Ultraviolet Spectrophotometric Detection [J], Journal of Agricultural and Food Chemistry, 51 (2003) 1513-1517
    [16] Lawrence J.F., Chadha R.K., Determination of sulfite in foods by headspace liquid chromatography [J], J. Assoc. Off. Anal. Chem., 71 (1988) 930-933
    [17] 卫锋, 陈明生, 于玲, 常丽, 李冬敏, 高效液相色谱-荧光检测法测定葡萄酒中总亚硫酸盐 [J],色谱, 17 (1999) 583-585
    [18] Kim H.-J., Kim Y.-K., Analysis of free and total sulfites in food by ion chromatography with electrochemical detection [J], Journal Food Science, 51 (1986) 1360-1361
    [19] Anderson C., Warner C.R., Daniels D.H., Padgett K.L., Ion chromatographic determination of sulfites in foods [J], J. Assoc. Off. Anal. Chem. 69 (1986) 14-19
    [20] 钟志雄, 梁春穗, 杜达安, 梁旭霞, 离子色谱法测定食品中亚硫酸盐的应用研究 [J], 中国卫生检验杂志, 13 (2003) 29-32
    [21] A. Safavi, B. Haghighi, Flow injection analysis of sulphite by gas-phase molecular absorption UV/VIS spectrophotometry [J], Talanta, 44 (1997) 1009-1016
    [22] Yuming Huang, Chao Zhang, Xinrong Zhang, Zhujun Zhang, A sensitive chemiluminescence flow system for the determination of sulfite [J], Anal. Lett., 32 (1999) 1211-1224
    [23] 王园朝, 何治柯, 三邻菲咯啉合亚钌-亚硫酸根-氯酸钾体系化学发光法测定葡萄酒中亚硫酸盐总量 [J], 咸宁学院学报, 23 (2003) 68-71
    [24] Mian Jiang, Fang Jiang, Jin Duan, Xueyuan Tang, Zaofan Zhao, Spectrophotometric determination of trace nitriate based on catalytic oxidation of thionine by potassium bromate [J], Anal. Chem. Acta, 234(1990) 403-407
    [1] Shinsuke Ohno, Norio Teshima, Heng Zhang, Tadao Sakai, Utilization of activating and masking effects by ligands for highly selective catalytic spectrophotometric determination of copper and iron in natural waters [J], Talanta, 60 (2003) 1177-1185
    [2] Hossein Tavallali, Ali Massoumi, Simultaneous kinetic spectrophotometric determination of vanadium (V) and iron (III) [J], Talanta, 47 (1998) 479-485
    [3] Susumu Kawakubo, Yuki Hagihara, Yukiko Honda, Masaaki Iwatsuki, Speciation of iron in river and tap waters by catalytic spectrophotometry using oxidation of o-phenylenediamine with hydrogen peroxide [J], Analytica Chimica Acta, 388 (1999) 35-43
    [4] 龚仁敏, 黄永杰, 朱升学, Fe(III)-H2O2-固绿 FCF-1,10-菲咯啉体系催化褪色光度法测定痕量铁 [J], 光谱实验室, 16 (1999) 42-44
    [5] 龚仁敏, 朱升学, 李恩, 黄永杰, Fe(III)-H2O2-丽春红-1,10-菲咯啉体系催化褪色光度法测定痕量铁 [J], 理化检验-化学分册, 36 (2000) 445-446
    [6] A. Youssdef El-sayed, M. M. H. Khalil, Simultaneous first-derivative spectrophotometric determination of iron (III) and molybdenum (VI) in cobalt-chromium and nickel-chromium alloys [J], Talanta, 43 (1996) 583-588
    [7] Kevser Sozgen, Esma Tutem, Second derivative spectrophotometric method for simultaneous determination of cobalt, nickel and iron using 2-(5-bromo-2-pyridylazo)-5-diethylaminophenol [J], Talanta, 62 (2004) 971-976
    [8] Pranab K. Tarafder, Raghbendra Thakur, Surfactant-mediated extraction of iron and its spectrophotometric determination in rocks, minerals, soils, stream sediments and water samples [J], Microchemical Journal, 80 (2005) 39-43
    [9] Kyriakos A. Riganakos, Panayiotis G. Veltsistas, Comparative spectrophotometric determination of the total iron content in various white and red Greek wines [J], Food Chemistry, 82 (2003) 637-643
    [10] 周发连, 刘峙嵘, 刘云海, 张建梅, 铁(II)-5-Br-PADAP-乳化剂 OP 体系析相光度法测定微量铁的应用研究, 华东地质学院学报, 23(2000) 356-360
    [11] E. Y. Hashem, M. S. Abu-Bakr, S. M. Hussain, Interaction of nickel with 4-(2’-benzothiazolylazo) salicylic acid (BTAS) and simultaneous first-derivative spectrophotometric determination of nickel (II) and iron (III) [J], Spectrochimica Acta Part A, 59 (2003) 761-769
    [12] S. Lunvongsa, M. Oshima and S. Motomizu, Determination of total and dissolved amount of iron in water samples using catalytic spectrophotometric flow injection analysis [J], Talanta, 68, (2006), 969-973
    [13] Zeriet O. Tesfaldet, Jacobus F. Van Staden, Raluca I. Stefan, Sequential injectionspectrophotometric determination of iron as Fe (II) in multi-vitamin preparations using 1, 10-phenanthroline as complexing agent [J], Talanta, 64 (2004) 1189-1195
    [14] Salah M. Sultan, Yousif A. M. Hassan, Kamal E. E. Ibrahim, Sequential injection spectrophotometric assay of bromazepam complexed with iron (II) in hydrochloric acid with chemometric optimization [J], Talanta, 50 (1999) 841-849
    [15] Teraboon Pojanagaroon, Surasak Watanesk, Vichitr Rattanaphani, Saisunee Liawrungrath, Reverse flow injection spectrophotometric determination of iron (III) using norfloxacin [J], Talanta 58 (2002) 1293-1300
    [16] Ludwig V. Mulaudzi, Jacobus F. van Staden., Raluca I. Stefan, On-line determination of iron(II) and iron(III) using a spectrophotometric sequential injection system [J], Analytica Chimica Acta 467 (2002) 35-49
    [17] C. I. Measures, J. Yuan, J. A. Resing, Determination of iron seawater by flow injection analysis using in-line preconcentration and spectrophotometric detection [J], Marine Chemistry, 50 (1995) 3-12
    [18] S. Blain, P. Trguer, Iron (II) and iron (III) determination in sea water at the nanomolar level with selective on-line preconcentration and spectrophotometric determination [J], Analytica Chimica Acta, 308 (1995) 425-432
    [19] Ricardo J. Cassella, On-line solid phase extraction with polyurethane foam: trace level spectrophotometric determination of iron in natural waters and biological materials [J], Journal of Environmental Monitoring, 4 (2002) 9-14
    [20] D. M. C., Gomes, M. A. Segundo, J. L. F. C. Lima, A. O. S. S. Rangel, Spectrophotometric determination of iron and boron in soil extracts using a multi-syringe flow injection system [J], Talanta, 66 (2005) 703-711
    [21] Kin-ichi Tsunoda, Hiromitsu Itabashi, Hideo Akaiwa, Application of the glass slab optical waveguide to the spectrophotometric determination of the iron (II)-1,10-phenanthroline complex by flow analysis [J], Ananytica Chimica Acta, 299 (1995) 327-332
    [22] Takeshi Yamane, Hiroyo Yamada, Flow-injection spectrophotometric determination of trace iron in various salts. Elimination of blank peak effect and use of 2-(5-nitro-2-pyridylazo)-5-(N-propyl-N-sulfopropylamino) phenol as chromogenic agent[J], Analytica Chimica Acta, 308 (1995) 433-438
    [23] Claudio C. Oliveira, Raquel P. Sartini, Elias Ayres Guidetti Zagatto, Microwave-assisted sample preparation in sequential injection: spectrophotometric determination of magnesium, calcium and iron in food [J], Analytica Chimica Acta 413 (2000) 41-48
    [24] Patricia B. Martelli, Boaventura F. Reis, Eloisa A. M. Kronka, Henrique Bergamin F., Mauro Korn, Elias A. G. Zagatto, Jose Luis F. C. Lima, Alberto N. Araujo, Multicommutation in flow analysia. Part 2. Binary sampling for spectrophotometric determination of nickel, iron and chromium in steel alloys [J], Analytica Chimica Acta, 308 (1995) 397-405
    [25] Carolina Hernández González, Alberto J. Quejido Cabezas and Marta Fernández Díaz, Preconcentration and determination of rare-earth elements in iron-rich water samples by extraction chromatography and plasma source mass spectrometry (ICP-MS) [J], Analytica Chimica Acta, 55 (2005) 33-39
    [26] Matti Niemel?, Paavo Per?m?ki, Harri Kola and Juha Piispanen, Determination of arsenic, iron and selenium in moss samples using hexapole collision cell, inductively coupled plasma–mass spectrometry [J], Analytica Chimica Acta, 49 (2003) 3-12
    [27] Zheng Yang, Xiandeng Hou, Bradley T. Jones, David C. Sane, Michael J. Thomas and Dawn C. Schwenke, Determination of calcium, iron and magnesium in rabbit arteries by inductively coupled plasma atomic emission spectrometry [J], Microchemical Journal, 72 (2002) 49-54
    [28] B. F. Reis, M. Knochen, G. Pignalosa, N. Cabrera and J. Giglio, A multicommuted flow system for the determination of copper, chromium, iron and lead in lubricating oils with detection by flame AAS [J], Talanta, 64 (2004) 1220-1225
    [29] Paulo S. Roldan, Ilton L. Alcantara, Cilene C.F. Padilha and Pedro M. Padilha , Determination of copper, iron, nickel and zinc in gasoline by FAAS after sorption and preconcentration on silica modified with 2-aminotiazole groups [J], Fuel, 84(2005) 305-309
    [30] E. K. Paleologos, D. L. Giokas, S. M. Tzouwara-Karayanni and M. I. Karayannis, Micelle mediated methodology for the determination of free and bound iron in wines by flame atomic absorption spectrometry [J], Analytica Chimica Acta, 458(2002)241-248
    [31] Yasemin Bakircioglu, Dilek Bakircioglu and Nilgun Tokman, A novel preconcentration method for determination of iron and lead using Chromosorb-103 and flame atomic absorption spectrometry[J], Analytica Chimica Acta, 547( 2005) 26-30
    [32] Guohui Zhu, Zhancai Zhu, Lanfang Qiu, A fluorometric method for the determination of iron (II) with fluorescein isothiocyanate and iodine [J], 18 (2002) 1059-1061
    [33] Jin-Long Chen, Shu-Juan Zhuo, Yu-Qing Wu, Fang Fang, Ling Li and Chang-Qing Zhu, High selective determination iron (II) by its enhancement effect on the fluorescence of pyrene-tetramethylpiperidinyl (TEMPO) as a spin fluorescence probe [J], Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 63 (2006) 438-443
    [34] Peter L. Croot, Patrick Laan, Continuous shipboard determination of Fe(II) in polar waters using flow injection analysis with chemiluminescence detection [J], Analytica Chimica Acta, 466 (2002) 261-273
    [35] Hiroaki Matsumiya, Nobuhiko Iki and Sotaro Miyano, Sulfonylcalix[4]arenetetrasulfonate as pre-column chelating reagent for selective determination of aluminum(III), iron(III), and titanium(IV) by ion-pair reversed-phase high-performance liquid chromatography with spectrophotometric detection [J], Talanta, 62 (2004) 337-342
    [36] Sonia García-Marco, Mauro A. Cremonini, Pedro Esteban, Felipe Yunta, Lourdes Hernández-Apaolaza, Giuseppe Placucci and Juan J. Lucena, Gradient ion-pair chromatographic method for the determination of iron N, N′-ethylenediamine-di-(2-hydroxy-5-sulfophenylacetate) by high performance liquid chromatography–atmospheric pressure ionization electrospray mass spectrometry [J], Journal of Chromatography A, 1064 (2005) 67-74
    [37] Claudia Ortega, Soledad Cerutti, Roberto A. Olsina, Luis Dante Martínez and María Fernanda Silva, Simultaneous determination of dysprosium and iron in urine by capillary zone electrophoresis coupled to cloud point extraction [J], Journal of Pharmaceutical and Biomedical Analysis, 36 (2004) 721-727
    [38] P. Ugo, L. M. Moretto, A. De Boni, P. Scopece and G. A. Mazzocchin, Iron(II) and iron(III) determination by potentiometry and ion-exchange voltammetry at ionomer-coated electrodes[J], Analytica Chimica Acta, 474 (2002) 147-160
    [39] Vlado Cuculi?, Ivanka Pi?eta and Marko Branica, Voltammetric determination of stability constants of iron(III)-glycine complexes in water solution [J], Journal of Electroanalytical Chemistry, 583 (2005) 140-147
    [40] R. G. Anderson, G. Nickless, Heterocyclic azo dyestuffs in analytical chemistry [J], The Analyst, 92 (1967) 207-237
    [41] W. J. Geary, G. Nickless and F. H. Pollard, The metal complexes of some azo and azomethine dyestuffs: Determination of stability constants, and preparation of solid complexes [J], Analytica Chimica Acta, 27 (1962) 71-79
    [1] F. Poully, E. Touraud, J. F. Buisson, O. Thomas, An alternative method for the measurement of mineral sulphide in wastewater [J], Talanta 50 (1999) 737-742
    [2] D. C. Cooper, J. W. Morse, Biogeochemical Controls on Trace Metal Cycling in Anoxic Marine Sediments [J], Environmental Science Technology 32 (1998) 327-330
    [3] F. M. Tack, F. Lapauw, M. G. Verloo, Determination and fractionation of sulphur in a contaminated dredged sediment [J], Talanta, 44 (1997) 2185
    [4] 国家环境保护总局科技标准司. 中国环境保护标准汇编(1979-2000,水环境分册),水质 硫化物的测定 亚甲基蓝分光光度法 GB/T 16489-1996 [M], 北京: 中国环境科学出版社, 2001: 791-795
    [5] Ghasemi J., Mohammadi D.E., Kinetic spectrophotometric determination of sulfide using whole kinetic curve and a fixed time method [J], Microchemical Journal 71(2002) 1-8
    [6] Safavi Afsaneh, Ramezani Zahra, Kinetic spectrophotometric determination of traces of sulfide [J], Talanta 44 (1997) 1225-1230
    [7] Barzegar M., Jabbari A., Esmaeili M., Kinetic spectrophotometric determination of trace amounts of sulfide [J], Bulletin of the Korean Chemical Society, 24 (2003) 1261-1264
    [8] Mousavi M. F., Sarlack N., Spectophotometric determination of trace amounts of sulfide ion based on its catalytic reduction reaction with methylene blue in the presence of Te (Ⅳ) [J], Analytical Letters, 30 (1997) 1567-1578
    [9] 孙登明, 阮大文, 王丽红, 萃取催化光度法间接测定水中痕量硫离子 [J], 分析化学, 32 (2004) 179-182
    [10] Al-Farawati Radwan, van den Berg, Constant M.G., The determination of sulfide inseawater by flow-analysis with voltammetric detection [J], Marine Chemistry 57 (1997) 277-286
    [11] He Yi, Zheng Yan, Locke David C.,Differential pulse cathodic stripping voltammetric determination of nanomolar levels of dissolved sulfide applicable to field analysis of groundwater [J], Analytica Chimica Acta, 459 (2002) 209-217
    [12] J. S. Redinha, C. Paliteiro, J. L. C. Pereira, Determination of sulfide by square-wave polarography [J], Anal. Chim. Acta, 351 (1997) 115-125
    [13] Innocenzo G. Caswlla, Maria R. Guascito, Elio Desimoni, Sulfide measurements by flow injection analysis and ion chromatography with electrochemical detection [J]. Anal.Chim. Acta, 409 (2000) 27-34
    [14] Giuriati Caterina, Cavalli Silvano, Gorni Alfredo, Badocco Denis, Pastore Paolo,Ion chromatographic determination of sulfide and cyanide in real matrices by using pulsed amperometric detection on a silver electrode [J], Journal of Chromatography A, 102 (2004) 105-112
    [15] Tim F. Rozan, George W., Luther III, An anion chromatography/ultraviolet detection method to determine nitrite, nitrate, and sulfide concentrations in saline (pore) waters [J], Marine Chemistry 77 (2002) 1-6
    [16] Degui Tang, Peter H. Santschi, Sensitive determination of dissolved sulfide in estuarine water by solid-phase extraction and high-perfprmance liquid chromatography of methylene blue [J], Journal of Chromatography A, 883 (2000) 305-309
    [17] Font Joaquim, Gutierrez Jordi, Lalueza Joana, Perez Xavier,Determination of sulfide in the leather industry by capillary electrophoresis [J], Journal of Chromatography A 1996, 740(1): 125-132
    [18] Zenon Pawlak, Agnieszka S. Pawlak, Modification of iodometric determinaion of total and reactive sulfide in environmental samples [J], Talanta, 48 (1999) 347-353
    [19] Afsaneh Safavi, Mohammad Ali Karimi, Flow injection chemiluminescence determination of sulfide by oxidation with N-bromosuccinimide and N-chlorosuccinimide [J], Talanta, 57 (2002) 491-500
    [20] 刘经才, 胡波, 郭影仪, 丘星初, 流动注射分光光度法测定废水中硫化物的研究 [J],中国环境监测, 19 (2003) 38-30
    [21] Marcelo Solitrenick P., Silva, Cristiane X. Galhardo, Jorge C. Masini, Application of sequential injection –monosegmented flow analysis (SI-MSFA) to spectrophotometric determination of sulfide in simulated waters samples [J], Talanta, 60 (2003) 45-52
    [22] Ferrer L., De Armas G., Miro M. Eatela J. M., Cerda V., A multisyringe flow injection method for the automated determination of sulfide in waters using a miniaturized optical fiber spectrophotometer [J], Talanta, 64 (2004) 1119-1126
    [23] Cassella R. J., Teixeira L. S. G., Garrigues S., Spinola Costa A. C., Santelli R. E., Dela Guardia M., Determination of sulfide in waters by flow-injection solide phase spectrophotometry [J], Analyst, 125 (2000) 1835-1838
    [24] 分析化学手册(第二版)第一分册 基础知识与安全知识 [M] 北京:化学工业出版社 1997 P 342
    [25] 国家环境保护总局科技标准司. 中国环境保护标准汇编(1979-2000,水环境分册)[M], 北京:中国环境科学出版社,2001 859-863
    [26] Mian Jiang, Fang Jiang, Jin Duan, Xueyuan Tang, Zaofan Zhao, Spectrophotometric determination of trace nitriate based on catalytic oxidation of thionine by potassium bromate [J], Anal. Chem. Acta, 234(1990) 403-407