Detection analytical chemistry

Kaiser, K., and R. Benner. 2000. Determination of amino sugars in environmental samples with high salt content by high performance anion exchange chromatography and pulsed amperometric detection. Analytical Chemistry 72(ll) 2566-2572. 

M. Tam and H.H. HiU Jr., Secondary electrospray ionization-ion mobility spectrometry for explosive vapor detection. Analytical Chemistry 76(10) (2004) 2741—2747. 

A. L. Lafleur and K. M. Mills, Trace level determination of selected nitroaromatic compounds by gas chromatography with pyrolysis/chemiluminescent detection. Analytical Chemistry, 1981,53, 1202-1205. 

Kennedy, R. T. and Jorgenson, J. W., Quantitative-analysis of individual neurons by open tubular liquid-chromatography with voltammetric detection. Analytical Chemistry 61(5), 436 441, 1989. 

Hodgson, R. J., Brook, M. A., and Brennan, J. D., CapiUary-scale monolithic immunoaffinity columns for immunoextraction with in-line laser-induced fluorescence detection. Analytical Chemistry 77(14), 4404-4412, 2005. 

Mathies RA, Peck K, Stryer L. Optimization of high-sensitivity fluorescence detection. Analytical Chemistry 62, 1786-1791, 1990. 

Golet E.M., A.C. Alder, A. Hartmann, T.A. Temes, and W. Giger (2001). Trace determination of fluoroquinolone antibacterial agents in urban wastewater by sohd-phase extraction and liquid chromatography with fluorescence detection. Analytical Chemistry 73 3632-3638. 

Cataldi TRI, Margiotta G, Iasi L, Di Chio B, Xiloyannis C, Bufo SA. Determination of Sugar Compounds in Olive Plant Exracts by Tknion-Exchange Chromatography with Pulsed Tkmperometric Detection. /Analytical Chemistry 2000 72 3902-3907. 

Pinto, C.G., Jose, L.P.P. and Cordero, B.M. (1994) Cloud point preconcentration and high-performance liquid chromatographic determination of polycyclic aromatic hydrocarbons with fluorescence detection. Analytical Chemistry, 66, 864—81. 

Sun, L., Yu, C.X., and Irudayaraj, J. (2007) Surface-enhanced Raman scattering based nonfluorescent probe for multiplex DNA detection. Analytical Chemistry, 79, 3981-3988. 

T. (1998) Surface enhanced Raman gene probe for HIV detection. Analytical Chemistry, 70, 1352. 

Gerritsen MJP, Tanis H, Vandeginste BGM, Kateman G, Generalized rank annihilation factor analysis, iterative target transformation factor analysis, and residual bihnearization for the quantitative analysis of data from liquid chromatography with photodiode array detection, Analytical Chemistry, 1992, 64, 2042-2056. 

Tao, L., and Kennedy, R.T. (1996) On line competitive immunoassay for insulin based on capillary electrophoresis with laser induced fluorescence detection. Analytical Chemistry, 68, 3899 3906. 

Obata H, Karatani H, and Nakayama E (1993) Automated determination of iron in seawater by chelating resin concentration and chemiluminescence detection. Analytical Chemistry 65 1524-1528. 

Bouffard, S. P., Katon, J. E., Sommer, A. J. Danielson, N. D. (1994) Development of microchannel thin layer chromatography with infrared microspectroscopic detection. Analytical chemistry 66, 1937-1940. 

Lagally, E. T. et al. Integrated portable genetic analysis microsystem for pathogen/infectious disease detection. Analytical Chemistry 76, 3162-3170 (2004). 

Costin, C.D. and Synovec, R.E., A microscale-molecular weight sensor Probing molecular diffusion between adjacent laminar flows by refractive index gradient detection, Analytical Chemistry, 74, 4558 565, 2002. 

Shiddiky, M. J. A., Park, H., and Shim, Y. B., Direct analysis of trace phenolics with a microchip In-channel sample preconcentration, separation, and electrochemical detection, Analytical Chemistry, 78, 6809-6817, 2006. 

Hopper, E.D., Pittman, A.M.C., Tucker, C.L., et al. (2009) Hydrogen/Deuterium Exchange and Protease Digestion-Based Screening Assay for Protein-Ligand Binding Detection. Analytical Chemistry, 81 (16), 6860-6867. 

Sorensen HS, Pranov H, Larsen NB, Bomhop DJ, and Andersen PE (2003) Absolute refractive index determination by microinterferometric backscatter detection. Analytical Chemistry 75 1946-1953. 

Selucky, M. L. (1983) Quantitative analysis of coal-derived liquids by thin-layer chromatography with flame ionization detection. Analytical Chemistry, 5S, 141-3. 

Flarakos, I, Liberman, R.,Tannenbaum, G., Skipper, S.R., Skipper, PL. (2008) Integration of continuous-flow accelerator mass spectrometry with chromatography and mass-selective detection. Analytical Chemistry, 80(1S), 5079-5085. 

Figure 10.16 IMS spectra of 100 ng of (a) RDX, (b) NC, and (c) PETN. Spectra were obtained at 200°C with methylene chloride as dopant Reprinted with permission from Tam, M., and H. H. Hill, "Secondary Electrospray Ionization-Ion Mobility Spectrometry for Explosive Vapor Detection," Analytical Chemistry 76 (2004), 2741-2747. Copyright 2004 American Chemical Society. 

Tam, M., and H. H. Hill. "Secondary Electrospray lon-ization-Ion Mobility Spectrometry for Explosive Vapor Detection." Analytical Chemistry 76 (2004), 2741-2747. 

Kaniansky, D. et al.. Determination of chloride, nitrate, sulphate, nitrite, fluoride, and phosphate by on line coupled capillary isotachophoresis-capillary zone electrophoresis with conductivity detection. Analytical Chemistry 66, 4258,1994. 

Billingsley K, Balaconis MK, Dubach JM, Zhang N, Lim E, Francis KP, et al. Fluorescent nano-optodes for glucose detection. Analytical Chemistry 2010 82(9) 3707-13. 

C.-C. Wu, R.-G. Wu, J.-G. Huang, Y.-C. Lin, H. Chang, Three-electrode electrochemical detector and platinum film decoupler integrated with a capillary electrophoresis microchip for amperometric detection. Analytical Chemistry 75 (4) (2003) 947-952. 

E. Fu, et al., A two-dimensional paper network format that enables simple multi-step assays for use in low-resource settings in the context of malaria antigen detection. Analytical Chemistry 84 (10) (2012) 4574-4579. 

Wipf, D. O. Bard, A. J., Scanning electrochemical microscopy. 15. Improvements in imaging via tip-position modulation and lock-in detection. Analytical Chemistry 1992, 64, 1362-1367. 

SMALL H., STEVENS T.S. and BAUMAN W.C. 1975. Novel ion exchange chromatographic method using conductimetric detection. Analytical Chemistry, 47, 1801-1809. 

Terashima, C., et al.. Electrochemical Oxidation of Chlorophenols at a Boron-Doped Diamond Electrode and Their Determination by High-Performance Liquid Chromatography with Amperometric Detection. Analytical Chemistry, 2002. 74(4) p. 895-902. 

Norris, T. A. and Rawdon, M. G., "Determination of Hydrocarbon Types in Petroleum Liquids by Supercritical Fluid Chromatography with Flame Ionization Detection," Analytical Chemistry, Vol. 56, 1984, pp. 1767-1769. 

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