Surface-enhanced resonance Raman spectroscopy as an ancillary high-performance liquid chromatography detector for nitrophenol compounds

In this study, the potential application of surface-enhanced resonance Raman scattering (SERRS) spectroscopy as an off-line secondary detector for HPLC has been evaluated. Four nitrophenol compounds, 2-nitrophenol, 4-nitrophenol, 2,4-dinitrophenol, and 4,6-dinitrocresol were separated by isocratic r...

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Veröffentlicht in:	Analytical chemistry (Washington) 1989-04, Vol.61 (8), p.888-894
Hauptverfasser:	FAN NI, THOMAS, L, COTTON, T. M
Format:	Artikel
Sprache:	eng
Schlagworte:	400102 - Chemical & Spectral Procedures 400105 - Separation Procedures 540320 - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-) Analytical chemistry AROMATICS CHEMICAL ANALYSIS Chemistry Chromatographic methods and physical methods associated with chromatography CHROMATOGRAPHY Chromatography, High Pressure Liquid DATA ENVIRONMENTAL SCIENCES Exact sciences and technology EXPERIMENTAL DATA HYDROGEN COMPOUNDS HYDROXY COMPOUNDS INFORMATION INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY LASER SPECTROSCOPY LIQUID COLUMN CHROMATOGRAPHY MEASURING INSTRUMENTS MONITORS NITRO COMPOUNDS NITROPHENOL Nitrophenols - analysis NUMERICAL DATA ORGANIC COMPOUNDS ORGANIC NITROGEN COMPOUNDS Other chromatographic methods OXYGEN COMPOUNDS PHENOLS POLLUTANTS POLLUTION QUANTITATIVE CHEMICAL ANALYSIS RAMAN SPECTRA RAMAN SPECTROSCOPY SEPARATION PROCESSES SPECTRA SPECTROSCOPY Spectrum Analysis, Raman - methods TRACE AMOUNTS WATER WATER POLLUTION WATER POLLUTION MONITORS
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container_title	Analytical chemistry (Washington)
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creator	FAN NI THOMAS, L COTTON, T. M
description	In this study, the potential application of surface-enhanced resonance Raman scattering (SERRS) spectroscopy as an off-line secondary detector for HPLC has been evaluated. Four nitrophenol compounds, 2-nitrophenol, 4-nitrophenol, 2,4-dinitrophenol, and 4,6-dinitrocresol were separated by isocratic reverse-phase high-performance liquid chromatography (RP-HPLC) and monitored with a conventional UV detector. Resonance Raman (RR) and SERRS spectroscopy were next used to provide the required specificity for distinguishing the nitrophenol compounds. The SERRS detection limit for both 2-nitrophenol and 4-nitrophenol was calculated to be 14 ppb and that for 2,4-dinitrophenol and 4,6-dinitrocresol was estimated to lie near the parts-per-billion level as well. This detection limit is 2-3 orders of magnitude lower than that obtained by RR spectroscopy.
doi_str_mv	10.1021/ac00183a021
format	Article
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M</creator><creatorcontrib>FAN NI ; THOMAS, L ; COTTON, T. M</creatorcontrib><description>In this study, the potential application of surface-enhanced resonance Raman scattering (SERRS) spectroscopy as an off-line secondary detector for HPLC has been evaluated. Four nitrophenol compounds, 2-nitrophenol, 4-nitrophenol, 2,4-dinitrophenol, and 4,6-dinitrocresol were separated by isocratic reverse-phase high-performance liquid chromatography (RP-HPLC) and monitored with a conventional UV detector. Resonance Raman (RR) and SERRS spectroscopy were next used to provide the required specificity for distinguishing the nitrophenol compounds. The SERRS detection limit for both 2-nitrophenol and 4-nitrophenol was calculated to be 14 ppb and that for 2,4-dinitrophenol and 4,6-dinitrocresol was estimated to lie near the parts-per-billion level as well. 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M</creatorcontrib><title>Surface-enhanced resonance Raman spectroscopy as an ancillary high-performance liquid chromatography detector for nitrophenol compounds</title><title>Analytical chemistry (Washington)</title><addtitle>Anal Chem</addtitle><description>In this study, the potential application of surface-enhanced resonance Raman scattering (SERRS) spectroscopy as an off-line secondary detector for HPLC has been evaluated. Four nitrophenol compounds, 2-nitrophenol, 4-nitrophenol, 2,4-dinitrophenol, and 4,6-dinitrocresol were separated by isocratic reverse-phase high-performance liquid chromatography (RP-HPLC) and monitored with a conventional UV detector. Resonance Raman (RR) and SERRS spectroscopy were next used to provide the required specificity for distinguishing the nitrophenol compounds. The SERRS detection limit for both 2-nitrophenol and 4-nitrophenol was calculated to be 14 ppb and that for 2,4-dinitrophenol and 4,6-dinitrocresol was estimated to lie near the parts-per-billion level as well. This detection limit is 2-3 orders of magnitude lower than that obtained by RR spectroscopy.</description><subject>400102 - Chemical & Spectral Procedures</subject><subject>400105 - Separation Procedures</subject><subject>540320 - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-)</subject><subject>Analytical chemistry</subject><subject>AROMATICS</subject><subject>CHEMICAL ANALYSIS</subject><subject>Chemistry</subject><subject>Chromatographic methods and physical methods associated with chromatography</subject><subject>CHROMATOGRAPHY</subject><subject>Chromatography, High Pressure Liquid</subject><subject>DATA</subject><subject>ENVIRONMENTAL SCIENCES</subject><subject>Exact sciences and technology</subject><subject>EXPERIMENTAL DATA</subject><subject>HYDROGEN COMPOUNDS</subject><subject>HYDROXY COMPOUNDS</subject><subject>INFORMATION</subject><subject>INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY</subject><subject>LASER SPECTROSCOPY</subject><subject>LIQUID COLUMN CHROMATOGRAPHY</subject><subject>MEASURING INSTRUMENTS</subject><subject>MONITORS</subject><subject>NITRO COMPOUNDS</subject><subject>NITROPHENOL</subject><subject>Nitrophenols - analysis</subject><subject>NUMERICAL DATA</subject><subject>ORGANIC COMPOUNDS</subject><subject>ORGANIC NITROGEN COMPOUNDS</subject><subject>Other chromatographic methods</subject><subject>OXYGEN COMPOUNDS</subject><subject>PHENOLS</subject><subject>POLLUTANTS</subject><subject>POLLUTION</subject><subject>QUANTITATIVE CHEMICAL ANALYSIS</subject><subject>RAMAN SPECTRA</subject><subject>RAMAN SPECTROSCOPY</subject><subject>SEPARATION PROCESSES</subject><subject>SPECTRA</subject><subject>SPECTROSCOPY</subject><subject>Spectrum Analysis, Raman - methods</subject><subject>TRACE AMOUNTS</subject><subject>WATER</subject><subject>WATER POLLUTION</subject><subject>WATER POLLUTION MONITORS</subject><issn>0003-2700</issn><issn>1520-6882</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1989</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNo9kEuP1TAMhSMEGu5cWLFGihCaXcFJ2qZdohEvaSQkHuvKdZLboDbpJO3i_gL-NhnmipUtn89H9mHslYB3AqR4jwQgOoWlf8IOopFQtV0nn7IDAKhKaoDn7Drn3wUTINordiW16KVuD-zPjz05JFvZMGEga3iyOYaHln_HBQPPq6UtxUxxPXPMvIyK6ucZ05lP_jRVq00upuXfzuzvd284TSkuuMVTwnU6c2O3YhITLxwPvtitkw1x5hSXNe7B5BfsmcM525eXemS_Pn38efuluvv2-evth7vqJPtuqxw604Luu1FL01PXCGlQE2lbU1u7poZeE0gLDTbaGSOkGhWN2tSjcg5rdWRvHn1j3vyQyZfDJoohlPuGRuhGgSrQzSO0pni_27wNi89ky8vBxj0Puus7UCXbI3t9AfdxsWZYk19KLMMl3qK_veiYCWeXHpLL_zEtZd3XUv0FH3yMVQ</recordid><startdate>19890415</startdate><enddate>19890415</enddate><creator>FAN NI</creator><creator>THOMAS, L</creator><creator>COTTON, T. 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M</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Surface-enhanced resonance Raman spectroscopy as an ancillary high-performance liquid chromatography detector for nitrophenol compounds</atitle><jtitle>Analytical chemistry (Washington)</jtitle><addtitle>Anal Chem</addtitle><date>1989-04-15</date><risdate>1989</risdate><volume>61</volume><issue>8</issue><spage>888</spage><epage>894</epage><pages>888-894</pages><issn>0003-2700</issn><eissn>1520-6882</eissn><coden>ANCHAM</coden><abstract>In this study, the potential application of surface-enhanced resonance Raman scattering (SERRS) spectroscopy as an off-line secondary detector for HPLC has been evaluated. Four nitrophenol compounds, 2-nitrophenol, 4-nitrophenol, 2,4-dinitrophenol, and 4,6-dinitrocresol were separated by isocratic reverse-phase high-performance liquid chromatography (RP-HPLC) and monitored with a conventional UV detector. Resonance Raman (RR) and SERRS spectroscopy were next used to provide the required specificity for distinguishing the nitrophenol compounds. The SERRS detection limit for both 2-nitrophenol and 4-nitrophenol was calculated to be 14 ppb and that for 2,4-dinitrophenol and 4,6-dinitrocresol was estimated to lie near the parts-per-billion level as well. This detection limit is 2-3 orders of magnitude lower than that obtained by RR spectroscopy.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>2719276</pmid><doi>10.1021/ac00183a021</doi><tpages>7</tpages></addata></record>
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subjects	400102 - Chemical & Spectral Procedures 400105 - Separation Procedures 540320 - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-) Analytical chemistry AROMATICS CHEMICAL ANALYSIS Chemistry Chromatographic methods and physical methods associated with chromatography CHROMATOGRAPHY Chromatography, High Pressure Liquid DATA ENVIRONMENTAL SCIENCES Exact sciences and technology EXPERIMENTAL DATA HYDROGEN COMPOUNDS HYDROXY COMPOUNDS INFORMATION INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY LASER SPECTROSCOPY LIQUID COLUMN CHROMATOGRAPHY MEASURING INSTRUMENTS MONITORS NITRO COMPOUNDS NITROPHENOL Nitrophenols - analysis NUMERICAL DATA ORGANIC COMPOUNDS ORGANIC NITROGEN COMPOUNDS Other chromatographic methods OXYGEN COMPOUNDS PHENOLS POLLUTANTS POLLUTION QUANTITATIVE CHEMICAL ANALYSIS RAMAN SPECTRA RAMAN SPECTROSCOPY SEPARATION PROCESSES SPECTRA SPECTROSCOPY Spectrum Analysis, Raman - methods TRACE AMOUNTS WATER WATER POLLUTION WATER POLLUTION MONITORS
title	Surface-enhanced resonance Raman spectroscopy as an ancillary high-performance liquid chromatography detector for nitrophenol compounds
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