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Liquid chromatography-diode array detection

Saito, K., A new enzymatic method for extraction of precarthamin from dyer s saffron (Carthamus tinctorius) florets, Z. Lebensmitt. Untersuch. Forsch., 197, 34, 1993. Cserhati, T. et ah. Separation and quantitation of colour pigments of chili powder (Capsicum frutescens) by high-performance liquid chromatography-diode array detection, J. Chromatogr. A, 896, 69, 2000. [Pg.529]

Aguilar C, Ferrer I, Borrull F, Marce RM, Barcelo D (1999) Monitoring of pesticides in river water based on samples previously stored in polymeric cartridges followed by online solid-phase extraction-liquid chromatography-diode array detection and confirmation by atmospheric pressure chemical ionization mass spectrometry. Anal Chim Acta 386 (3) 237-248... [Pg.164]

Dams R, Benijts T, Lambert WE, De Leenheer AP. 2002. Simultaneous determination of in total 17 opium alkaloids and opioids in blood and urine by fast liquid chromatography-diode-array detection-fluorescence detection, after solid-phase extraction. J Chromatogr B Analyt Technol Biomed Life Sci 773(1) 53-61. [Pg.37]

Peters R, Hellenbrand J, Mengerink Y, Wal Van der S. 2004. On-line determination of carboxylic acids, aldehydes and ketones by high-performance liquid chromatography-diode array detection-atmospheric pressure chemical ionization mass spectrometry after derivatization with 2-nitrophenylhydrazine. J Chromatogr A 1031 35. [Pg.174]

S Lacorte, D Barcelo. Improvements in the determination of organophosphorus pesticides in ground and wastewater samples from interlaboratory studies by automated on-line liquid-solid extraction followed by liquid chromatography diode array detection. J Chromatogr A 725 85-92, 1996. [Pg.757]

A Lagana, G D Ascenzo, G Fago, A Marino. Determination of organophosphorus pesticides and metabolites in crops by solid phase extraction followed by liquid chromatography/diode array detection. Chromatographia 46 256-264, 1997. [Pg.757]

I. Ferrer, V. Pichon, M-C. Hennion and D. Barcelo, Automated sample preparation with extraction columns by means of anti-isoproturon immunosorbents for the determination of phenylurea herbicides in water followed by liquid chromatography-diode array detection and liquid chromatography-atmospheric pressure chemical ionization mass spectrometry ,/. Chromatogr. 777 91-98 (1997). [Pg.132]

Figure 13.13 On-line trace enrichment-RPLC-diode-array detection (DAD) chromatogram (at 230 nm) obtained from 200 ml of tap water spiked with various pesticides at levels of 1 jxg L1. Reprinted from Chromatographia, 43, C. Aguilar et al., Determination of pesticides by on-line trace enrichment-reversed-phase liquid chromatography-diode-array detection and confirmation by particle-beam mass spectrometry , pp. 592-598,1996, with permission from Vieweg Publishing. Figure 13.13 On-line trace enrichment-RPLC-diode-array detection (DAD) chromatogram (at 230 nm) obtained from 200 ml of tap water spiked with various pesticides at levels of 1 jxg L1. Reprinted from Chromatographia, 43, C. Aguilar et al., Determination of pesticides by on-line trace enrichment-reversed-phase liquid chromatography-diode-array detection and confirmation by particle-beam mass spectrometry , pp. 592-598,1996, with permission from Vieweg Publishing.
Figure 13.14 LC-diode-array detection (DAD) chromatogram (at 220 nm) obtained after preconcentration of 50 ml of ground water sample spiked with various pollutants at levels of 3 p.g l-1 passed through (a) a PLRP-S cartridge and (b) an anti-isoproturon cartridge. Peak identification is as follows 1, chlortoluron 2, isoproturon plus diuron 3, linuron 4, diben-zuron , water matrix. Reprinted from Journal of Chromatography, A 777, I. Ferrer et al. Automated sample preparation with extraction columns by means of anti-isoproturon immunosorbents for the determination of phenylurea herbicides in water followed by liquid chromatography diode array detection and liquid chromatography-atmospheric pressure chemical ionization mass spectrometry , pp. 91-98, copyright 1997, with permission from Elsevier Science. Figure 13.14 LC-diode-array detection (DAD) chromatogram (at 220 nm) obtained after preconcentration of 50 ml of ground water sample spiked with various pollutants at levels of 3 p.g l-1 passed through (a) a PLRP-S cartridge and (b) an anti-isoproturon cartridge. Peak identification is as follows 1, chlortoluron 2, isoproturon plus diuron 3, linuron 4, diben-zuron , water matrix. Reprinted from Journal of Chromatography, A 777, I. Ferrer et al. Automated sample preparation with extraction columns by means of anti-isoproturon immunosorbents for the determination of phenylurea herbicides in water followed by liquid chromatography diode array detection and liquid chromatography-atmospheric pressure chemical ionization mass spectrometry , pp. 91-98, copyright 1997, with permission from Elsevier Science.
R. M. Marce, H. Prosen, C. Crespo, M. Calull, F. Borrull and U. A. Th Brinkman, Online trace enrichment of polar pesticides in environmental waters by reversed-phase liquid chromatography-diode array detection-particle beam mass spectrometry , J. Chromatogr. 696 63-74 (1995). [Pg.374]

Gascon, J., A. Oubina, I. Ferrer, et al. 1996. Performance of two immunoassays for the determination of atrazine in sea water samples as compared with on-line solid phase extraction-liquid chromatography-diode array detection. Anal. Chim. Acta 330 41-51. [Pg.179]

Borch, T. and Gerlach, R. Use of reversed-phase high-performance liquid chromatography-diode array detection for complete separation of 2,4,6-trinitrotoluene metabolites and EPA Method 8330 explosives influence of temperature and an ion-pair reagent. J. Chromatogr. A. 2004,1022, 83-94. [Pg.123]

Chavez-Servin, J.L. Castellote, A.I. Lopez-Sabater, M.C. 2006. Simultaneous analysis of vitamins A and E in infant milk-based formulae by normal-phase high-performance liquid chromatography-diode array detection using a short narrow-bore column. J. Chromatogr. A. 1122 138-143. [Pg.380]

Piissa, T, Eloren, J., Kuldepp, P, Raal, A. (2006). Survey of grapevine Vitis vinifera stem polyphenols by Liquid Chromatography-Diode Array Detection-Tandem Mass Spectrometry. J. Agric. Food Chem., 54, 7488-7494. [Pg.525]

Methods in the analysis of drug impurities (e.g., ultraviolet, UV Fourier transform infrared, FT-IR nuclear magnetic resonance, NMR mass spectrometry, MS) are used to separate, identify, and quantify impurities, as well as establish their structure. Currently the most efficient methods seem to be combined techniques such as GC-MS, LC-MS, liquid chromatography-diode-array detection-mass spectrometry (LC-DAD-MS), LC-NMR, LC-DAD-NMR-MS, etc. [18-20]. [Pg.189]

I. Use of liquid chromatography-diode-array detection and mass spectrometry for rapid product identification in biotechnological synthesis of a chiral steroid. [Pg.5]

Saint-Marcoux F, Lachatre G, Marquet P. Evaluation of an improved general unknown screening procedure using liquid chromatography-electrospray-mass spectrometry by comparison with gas chromatography and high-performance liquid chromatography-diode array detection. J Am Soc Mass Spectrom 2003 14 14 22. [Pg.166]

Zhao, L. Lou, Z.-Y. Zhu, Z.-Y. Zhang, H. Zhang, G.-Q. Chai, Y.-F., Characterization of constituents in Stellera chamaejasme L. by rapid-resolution liquid chromatography-diode array detection and electrospray ionization time-of-flight mass spectrometiy, Biomed. Chromatogr., 2008, 22, 64-72. [Pg.222]

Koves, E.M. Use of high-performance liquid chromatography-diode array detection in forensic toxicology. [Pg.18]

See other pages where Liquid chromatography-diode array detection is mentioned: [Pg.388]    [Pg.420]    [Pg.33]    [Pg.357]    [Pg.169]    [Pg.756]    [Pg.183]    [Pg.373]    [Pg.475]    [Pg.322]    [Pg.352]    [Pg.313]    [Pg.1253]   
See also in sourсe #XX -- [ Pg.361 , Pg.367 ]



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Array detection

Chromatography detection

Chromatography diode array detection

Diode arrays

High-performance liquid chromatography diode array detection

High-performance liquid chromatography with diode array detection

Liquid chromatography detectability

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