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Reaction detection

Figure 11.2 (a) LC-LC system with post-column reaction detection for the determination... [Pg.261]

DE PASCUAL-TERESA S, TREUTTER D, RIVAS-GONZALO J 0 and SATOS-BUELGA C (1998) Analysis of flavonols in beverages by high-performance liquid chromatography with chemical reaction detection , J Agric Food Chem, 46, 4209-13. [Pg.151]

This was the only reaction detected for C2H4 on clean Pd(lOO) no CH4, C2H2, C2H5, or C5H5 was detected. The effect of Increasing... [Pg.168]

Reaction Detection in Liquid Chromatography, edited by Ira S. Krull... [Pg.431]

High-performance liquid chromatography (HPLC) with a micellar mobile phase or with a selective pre-column or reaction detection system has also been used to determine alkylenebis(dithiocarbamaes). ° Zineb and mancozeb residues in feed were determined by ion-pair HPLC with ultraviolet (UV) detection at 272 nm. These compounds were converted to water-soluble sodium salts with ethylenediaminetetra-acetic acid (EDTA) and sodium hydroxide. The extracts were ion-pair methylated with tetrabuthylammonium hydrogensulfate (ion-pair reagent) in a chloroform-hexane solvent mixture at pH 6.5-8.S. The use of an electrochemical detector has also been reported. ... [Pg.1091]

I. S. Krull (Ed.), " Reaction Detection in Liquid Chromatography , Dekker, New york, Ny, 1986. [Pg.476]

J. M. Birks, "Chemiluminescence and Photochemical Reaction Detection in Chromatography", VCH Publishers, New York, NY, 1989. [Pg.982]

Schieffer, G. W., Preliminary examination of a new post-column photolysis-molybdate reaction detection system for the determination of organophos-phorus compounds by high performance liquid chromatography, Instr. Sci. Technol., 23, 255, 1995. [Pg.52]

Yamauchi, S., Nakai, C., Nimura, N., Kinoshita, T., and Hanai, T., Development of a highly sensitive fluorescence reaction detection system for liquid chromatographic analysis of reducing carbohydrates, Analyst, 118, 773,1993. [Pg.54]

Eskinja, M., Lamprecht, G., Scherer, G., and Schmid, E. R., Assay of S-ethyl-N-acetyl-L-cysteine in urine by high-performance liquid chromatography using post-column reaction detection, /. Chromatogr. B, 704, 159, 1997. [Pg.306]

Holland, L.A. and Lunte, S.M., Postcolumn reaction detection with dualelectrode capillary electrophoresis-electrochemistry and electrogenerated bromine, Anal. Chem. 71, 407, 1999. [Pg.437]

Many IC techniques are now available using single column or dual-column systems with various detection modes. Detection methods in IC are subdivided as follows [838] (i) electrochemical (conductometry, amper-ometry or potentiometry) (ii) spectroscopic (tJV/VIS, RI, AAS, AES, ICP) (iii) mass spectrometric and (iv) postcolumn reaction detection (AFS, CL). The mainstay of routine IC is still the nonspecific conductometric detector. A significant disadvantage of suppressed conductivity detection is the fact that weak to very weak acid anions (e.g. silicate, cyanide) yield poor sensitivity. IC combined with potentiometric detection techniques using ISEs allows quantification of selected analytes even in complex matrices. The main drawback... [Pg.271]

In the intermediate circumstance where the rate of reaction with H20 and the rate of radical cation migration are comparable, then the amount of reaction detected is somehow related to the distance from the AQ to the GG step. [Pg.154]

DBH 1368 polymorphism. The figure shows results of typing 42 people. The bars represent the fluorescent signal from the reaction detecting the G-allele divided by the signal from the... [Pg.456]

Figure 19.19 An Ellman s assay may be done to determine the maleimide activation level of SMCC-derivatized proteins. Reaction of the activated carrier with different amounts of 2-mercaptoethanol results in various levels of sulfhydryls remaining after the reaction. Detection of the remaining thiols using an Ellman s assay indirectly indicates the amount of sulfhydryl uptake into the activated carrier. Comparison of the Ellman s response to the same quantity of 2-mercaptoethanol plus an unactivated carrier indicates the absolute amount of sulfhydryl that reacted. Calculation of the maleimide activation level then can be done. Figure 19.19 An Ellman s assay may be done to determine the maleimide activation level of SMCC-derivatized proteins. Reaction of the activated carrier with different amounts of 2-mercaptoethanol results in various levels of sulfhydryls remaining after the reaction. Detection of the remaining thiols using an Ellman s assay indirectly indicates the amount of sulfhydryl uptake into the activated carrier. Comparison of the Ellman s response to the same quantity of 2-mercaptoethanol plus an unactivated carrier indicates the absolute amount of sulfhydryl that reacted. Calculation of the maleimide activation level then can be done.
JW Birks, ed. Chemiluminescence and Photochemical Reaction Detection in Chromatography. New York VCH, 1989. [Pg.39]

Native Substances Conversion Reaction Detection Potential Working Electrode Material Reference Number... [Pg.86]

Transposed laboratory methods - This first group is historically the most important as the first developments were carried out in that way. All colorimetric systems using automatic sampling feeding a fast reaction/detection line (for example, with a flow-injection procedure) have been developed from classical procedures, first to increase the analytical rate in laboratories before being transposed for off-line measurement. [Pg.255]

J. Liu, D. Xing, X. Shen and D. Zhu, Electrochemiluminescence polymerase chain reaction detection of genetically modified organisms, Anal. Chim. Acta, 537 (2005) 119-123. [Pg.786]

Figure 4.7 Anion exchange separation of carboxylic acids in red wine. Column, Shodex C811, 100 cm x 7.6 mm i.d. eluent, 3 mM perchloric acid flow rate, 0.9 ml min-1 temperature, 60 °C detection, reaction detection using chloro-phenol red at 430 nm. Peaks 1, citric acid 2, tartaric acid 3, malic acid 4, succinic acid 5, lactic acid 6, formic acid and 1, acetic acid. Figure 4.7 Anion exchange separation of carboxylic acids in red wine. Column, Shodex C811, 100 cm x 7.6 mm i.d. eluent, 3 mM perchloric acid flow rate, 0.9 ml min-1 temperature, 60 °C detection, reaction detection using chloro-phenol red at 430 nm. Peaks 1, citric acid 2, tartaric acid 3, malic acid 4, succinic acid 5, lactic acid 6, formic acid and 1, acetic acid.
Figure 4.10 Direct analysis of catecholamines in urine sample. Column, Asahipak ES-502C eluent, 75 mM succinic acid + 25 mM borate buffer (pH 6.10) containing 0.5 mM EDTA flow rate, 1.0 min-1 detection, fluorescence reaction detection Ex. 350 nm. Peaks-. 1, adrenaline-, 2, noradrenaline-, and 3, dopamine. Figure 4.10 Direct analysis of catecholamines in urine sample. Column, Asahipak ES-502C eluent, 75 mM succinic acid + 25 mM borate buffer (pH 6.10) containing 0.5 mM EDTA flow rate, 1.0 min-1 detection, fluorescence reaction detection Ex. 350 nm. Peaks-. 1, adrenaline-, 2, noradrenaline-, and 3, dopamine.
In the chemiluminescent detection of nitrogen oxides, a constant source of ozone reacts with a metered air sample containing nitric oxide. Fontijn et al. suggested that this method could also be used for ozone detection by using a constant nitric oxide source for reaction with ozone in the air sample. The ozone-nitric oxide reaction is carried out at reduced pressure, to avoid quenching the chemiluminescent reaction. Detection of the emission in the spectral r on involved (600-3,000 nm) requires using a near-infrared-sensitive photomultiplier tube. The noise of such a photomultiplier tube is reduced by cooling it to about - 20 C. ... [Pg.270]

Komminoth, P., Long, A. A., Ray, R., and Wolfe, H. J. (1992) In situ polymerase chain reaction detection of viral DNA, single copy genes and gene rearrangements in cell suspensions and cytospins. Diag. Mol. Pathol. 1, 85-97. [Pg.399]

Another field technique for screening soils for the presence of TNT, 2,4-dinitrotoluene (2,4-DNT) and RDX was reported [99]. The color reagents were KOH for TNT (red color) and sodium sulfite for 2,4-DNT (blue-purple color). In screening soil for the presence of RDX, the first step would be to remove any potential contaminants - nitrite and nitrate ions - from the soil, using an ion exchange resin. The RDX is then reduced by zinc powder and the resulting N02 ions are detected by the Griess reaction. Detection limits were estimated to be 1 mg of TNT or RDX and 2 mg of 2,4-DNT per 1 kg of soil. [Pg.54]

Treutter D (1989) Chemical reaction detection of catechins and proanthocyanidins with 4-dimethylaminocinnamaldehyde. J Chromatogr 467 185-193... [Pg.46]

See other pages where Reaction detection is mentioned: [Pg.245]    [Pg.298]    [Pg.955]    [Pg.131]    [Pg.146]    [Pg.151]    [Pg.462]    [Pg.463]    [Pg.261]    [Pg.170]    [Pg.436]    [Pg.525]    [Pg.194]    [Pg.192]    [Pg.354]    [Pg.121]    [Pg.112]   
See also in sourсe #XX -- [ Pg.278 ]



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