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Mass spectrometric characterization of β-caryophyllene ozonolysis products in the aerosol studied using an electrospray triple quadrupole and time-of-flight analyzer hybrid system and density functional theory
The components of the organic aerosol formed due to gas‐phase β‐caryophyllene ozonolysis were characterized by the use of a triple quadrupole and time‐of‐flight analyzer hybrid system coupled to an electrospray ionization source operated in the negative ion mode. A reversed‐phase high‐performance li...
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| Published in: | Rapid communications in mass spectrometry 2008-01, Vol.22 (2), p.165-186 |
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| cites | cdi_FETCH-LOGICAL-c3880-efd5259a49482a66e2625ddcd5437ce8e3d121fb487ae6c860343c3341ec1c7c3 |
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| container_title | Rapid communications in mass spectrometry |
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| creator | Kanawati, Basem Herrmann, Frank Joniec, Seweryn Winterhalter, Richard Moortgat, Geert K. |
| description | The components of the organic aerosol formed due to gas‐phase β‐caryophyllene ozonolysis were characterized by the use of a triple quadrupole and time‐of‐flight analyzer hybrid system coupled to an electrospray ionization source operated in the negative ion mode. A reversed‐phase high‐performance liquid chromatography (HPLC) column was used to achieve chromatographic separations at neutral pH which has been proved to induce ionization of organic compounds bearing aldehyde moieties. In addition to the detected oxo‐ and dicarboxylic acids, isomeric oxidation products, which bear multi‐functional groups such as aldehyde, carbonyl and hydroxyl groups, could be differentiated by examining their corresponding collision‐induced dissociation (CID) fragmentation pathways. Proposed fragmentation mechanisms were drawn for the experimentally observed fragmentation pathways in all the CID experiments. Cyclic oxidation products could also be discerned and their fragmentation behaviour under low energy collsional conditions was studied in detail. Gas‐phase deprotonation potentials were calculated by the use of DFT B3LYP/6‐311+G(2d,p)//B3LYP/6‐31+G(d) + ZPVE to estimate the most thermodynamically favourable deprotonation site for efficient negative ion formation in the ion source. The optimized gas‐phase geometries for the most prominent oxidation products reveal a strong intramolecular interaction between the upper and lower C4 carbon chains, which are formed after the decomposition of the primary ozonide generated by ozone attack of the reactive endocyclic CC bond. Copyright © 2007 John Wiley & Sons, Ltd. |
| doi_str_mv | 10.1002/rcm.3340 |
| format | article |
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A reversed‐phase high‐performance liquid chromatography (HPLC) column was used to achieve chromatographic separations at neutral pH which has been proved to induce ionization of organic compounds bearing aldehyde moieties. In addition to the detected oxo‐ and dicarboxylic acids, isomeric oxidation products, which bear multi‐functional groups such as aldehyde, carbonyl and hydroxyl groups, could be differentiated by examining their corresponding collision‐induced dissociation (CID) fragmentation pathways. Proposed fragmentation mechanisms were drawn for the experimentally observed fragmentation pathways in all the CID experiments. Cyclic oxidation products could also be discerned and their fragmentation behaviour under low energy collsional conditions was studied in detail. Gas‐phase deprotonation potentials were calculated by the use of DFT B3LYP/6‐311+G(2d,p)//B3LYP/6‐31+G(d) + ZPVE to estimate the most thermodynamically favourable deprotonation site for efficient negative ion formation in the ion source. The optimized gas‐phase geometries for the most prominent oxidation products reveal a strong intramolecular interaction between the upper and lower C4 carbon chains, which are formed after the decomposition of the primary ozonide generated by ozone attack of the reactive endocyclic CC bond. Copyright © 2007 John Wiley & Sons, Ltd.</description><identifier>ISSN: 0951-4198</identifier><identifier>EISSN: 1097-0231</identifier><identifier>DOI: 10.1002/rcm.3340</identifier><identifier>PMID: 18069749</identifier><language>eng</language><publisher>Chichester, UK: John Wiley & Sons, Ltd</publisher><subject>Aerosols - chemistry ; Anti-Inflammatory Agents, Non-Steroidal - chemistry ; Models, Chemical ; Models, Structural ; Oxidants, Photochemical - chemistry ; Oxidation-Reduction ; Ozone - chemistry ; Sesquiterpenes - chemistry ; Spectrometry, Mass, Electrospray Ionization - instrumentation ; Spectrometry, Mass, Electrospray Ionization - methods</subject><ispartof>Rapid communications in mass spectrometry, 2008-01, Vol.22 (2), p.165-186</ispartof><rights>Copyright © 2007 John Wiley & Sons, Ltd.</rights><rights>Copyright (c) 2007 John Wiley & Sons, Ltd.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c3880-efd5259a49482a66e2625ddcd5437ce8e3d121fb487ae6c860343c3341ec1c7c3</citedby><cites>FETCH-LOGICAL-c3880-efd5259a49482a66e2625ddcd5437ce8e3d121fb487ae6c860343c3341ec1c7c3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27922,27923</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/18069749$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Kanawati, Basem</creatorcontrib><creatorcontrib>Herrmann, Frank</creatorcontrib><creatorcontrib>Joniec, Seweryn</creatorcontrib><creatorcontrib>Winterhalter, Richard</creatorcontrib><creatorcontrib>Moortgat, Geert K.</creatorcontrib><title>Mass spectrometric characterization of β-caryophyllene ozonolysis products in the aerosol studied using an electrospray triple quadrupole and time-of-flight analyzer hybrid system and density functional theory</title><title>Rapid communications in mass spectrometry</title><addtitle>Rapid Commun. Mass Spectrom</addtitle><description>The components of the organic aerosol formed due to gas‐phase β‐caryophyllene ozonolysis were characterized by the use of a triple quadrupole and time‐of‐flight analyzer hybrid system coupled to an electrospray ionization source operated in the negative ion mode. A reversed‐phase high‐performance liquid chromatography (HPLC) column was used to achieve chromatographic separations at neutral pH which has been proved to induce ionization of organic compounds bearing aldehyde moieties. In addition to the detected oxo‐ and dicarboxylic acids, isomeric oxidation products, which bear multi‐functional groups such as aldehyde, carbonyl and hydroxyl groups, could be differentiated by examining their corresponding collision‐induced dissociation (CID) fragmentation pathways. Proposed fragmentation mechanisms were drawn for the experimentally observed fragmentation pathways in all the CID experiments. Cyclic oxidation products could also be discerned and their fragmentation behaviour under low energy collsional conditions was studied in detail. Gas‐phase deprotonation potentials were calculated by the use of DFT B3LYP/6‐311+G(2d,p)//B3LYP/6‐31+G(d) + ZPVE to estimate the most thermodynamically favourable deprotonation site for efficient negative ion formation in the ion source. The optimized gas‐phase geometries for the most prominent oxidation products reveal a strong intramolecular interaction between the upper and lower C4 carbon chains, which are formed after the decomposition of the primary ozonide generated by ozone attack of the reactive endocyclic CC bond. 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Mass Spectrom</addtitle><date>2008-01-30</date><risdate>2008</risdate><volume>22</volume><issue>2</issue><spage>165</spage><epage>186</epage><pages>165-186</pages><issn>0951-4198</issn><eissn>1097-0231</eissn><abstract>The components of the organic aerosol formed due to gas‐phase β‐caryophyllene ozonolysis were characterized by the use of a triple quadrupole and time‐of‐flight analyzer hybrid system coupled to an electrospray ionization source operated in the negative ion mode. A reversed‐phase high‐performance liquid chromatography (HPLC) column was used to achieve chromatographic separations at neutral pH which has been proved to induce ionization of organic compounds bearing aldehyde moieties. In addition to the detected oxo‐ and dicarboxylic acids, isomeric oxidation products, which bear multi‐functional groups such as aldehyde, carbonyl and hydroxyl groups, could be differentiated by examining their corresponding collision‐induced dissociation (CID) fragmentation pathways. Proposed fragmentation mechanisms were drawn for the experimentally observed fragmentation pathways in all the CID experiments. Cyclic oxidation products could also be discerned and their fragmentation behaviour under low energy collsional conditions was studied in detail. Gas‐phase deprotonation potentials were calculated by the use of DFT B3LYP/6‐311+G(2d,p)//B3LYP/6‐31+G(d) + ZPVE to estimate the most thermodynamically favourable deprotonation site for efficient negative ion formation in the ion source. The optimized gas‐phase geometries for the most prominent oxidation products reveal a strong intramolecular interaction between the upper and lower C4 carbon chains, which are formed after the decomposition of the primary ozonide generated by ozone attack of the reactive endocyclic CC bond. Copyright © 2007 John Wiley & Sons, Ltd.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><pmid>18069749</pmid><doi>10.1002/rcm.3340</doi><tpages>22</tpages></addata></record> |
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| ispartof | Rapid communications in mass spectrometry, 2008-01, Vol.22 (2), p.165-186 |
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| source | Wiley-Blackwell Read & Publish Collection |
| subjects | Aerosols - chemistry Anti-Inflammatory Agents, Non-Steroidal - chemistry Models, Chemical Models, Structural Oxidants, Photochemical - chemistry Oxidation-Reduction Ozone - chemistry Sesquiterpenes - chemistry Spectrometry, Mass, Electrospray Ionization - instrumentation Spectrometry, Mass, Electrospray Ionization - methods |
| title | Mass spectrometric characterization of β-caryophyllene ozonolysis products in the aerosol studied using an electrospray triple quadrupole and time-of-flight analyzer hybrid system and density functional theory |
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