Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study

— In this work we present the results of a systematic search for cometary organics in 14 Stardust particles (particles from comet 81P/Wild 2, captured by NASA's Stardust mission) by TEM and multidisciplinary studies (XANES and NanoSIMS) of Febo and Ada, two of the organic‐ bearing particles ide...

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Veröffentlicht in:	Meteoritics & planetary science 2008-02, Vol.43 (1-2), p.315-334
Hauptverfasser:	Matrajt, G., Ito, M., Wirick, S., Messenger, S., Brownlee, D. E., Joswiak, D., Flynn, G., Sandford, S., Snead, C., Westphal, A.
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Sprache:	eng
Schlagworte:	Ada (programming language) Atoms & subatomic particles CARBON CARBONACEOUS MATERIALS CARBONYLS CHONDRITES COMETS DISTRIBUTION ENRICHMENT FUNCTIONALS INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ISOTOPES Nanostructure national synchrotron light source PARTICLES Phases SIZE SPECTRA Transmission electron microscopy
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container_title	Meteoritics & planetary science
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creator	Matrajt, G. Ito, M. Wirick, S. Messenger, S. Brownlee, D. E. Joswiak, D. Flynn, G. Sandford, S. Snead, C. Westphal, A.
description	— In this work we present the results of a systematic search for cometary organics in 14 Stardust particles (particles from comet 81P/Wild 2, captured by NASA's Stardust mission) by TEM and multidisciplinary studies (XANES and NanoSIMS) of Febo and Ada, two of the organic‐ bearing particles identified. The combination of the three analytical techniques has established the presence of organic, cometary C in both particles. Using energy‐filtered and high‐resolution imaging it was shown that the C is amorphous and rare, given that it is found in grains ≤200 nm in size that are not abundant throughout the particles. The XANES maps and spectra of the carbonaceous areas identified with the TEM have shown that the carbonaceous material is organic due to the presence of carbonyl (C=O) functional groups and the overlapping of C and N on the same grains. In addition, several different C‐XANES spectra were obtained from the same particle, suggesting that there is diversity in the types of carbonaceous phases present in these particles, as well as a heterogeneous distribution of the carbonaceous phases within these particles. The C‐XANES spectra obtained are different from C‐XANES spectra of carbonaceous chondrites and IDPs. In the particle Febo we found five spots showing a pronounced enrichment in the isotope 15N (δ15N from 420 to 639 ± 20 to 70‰, 1s̀) that were clearly associated with the C‐rich regions. The carbonaceous material has approximately solar C and D/H isotopic compositions, and the bulk O isotopic composition was found to be s̀17 O = −18 ± 13‰ and δ18 O = −37 ± 12‰ (1s̀). In the particle Ada we found a C‐rich phase with enrichments in the isotope 15N (δ15 N = 550 ± 70 ‰, 1s̀) and the isotope D (δD = 610 ± 254‰, 1s̀). The C isotopic composition at this phase is solar (δ13 C = −4 ± 29‰, 1s̀). The bulk O isotopic composition of Ada was found to be δ17 O = 9 ± 14.6‰ and δ18 O = −7.3 ± 8.1‰ (2s̀).
doi_str_mv	10.1111/j.1945-5100.2008.tb00625.x
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E. ; Joswiak, D. ; Flynn, G. ; Sandford, S. ; Snead, C. ; Westphal, A.</creator><creatorcontrib>Matrajt, G. ; Ito, M. ; Wirick, S. ; Messenger, S. ; Brownlee, D. E. ; Joswiak, D. ; Flynn, G. ; Sandford, S. ; Snead, C. ; Westphal, A. ; Brookhaven National Laboratory (BNL) National Synchrotron Light Source</creatorcontrib><description>— In this work we present the results of a systematic search for cometary organics in 14 Stardust particles (particles from comet 81P/Wild 2, captured by NASA's Stardust mission) by TEM and multidisciplinary studies (XANES and NanoSIMS) of Febo and Ada, two of the organic‐ bearing particles identified. The combination of the three analytical techniques has established the presence of organic, cometary C in both particles. Using energy‐filtered and high‐resolution imaging it was shown that the C is amorphous and rare, given that it is found in grains ≤200 nm in size that are not abundant throughout the particles. The XANES maps and spectra of the carbonaceous areas identified with the TEM have shown that the carbonaceous material is organic due to the presence of carbonyl (C=O) functional groups and the overlapping of C and N on the same grains. In addition, several different C‐XANES spectra were obtained from the same particle, suggesting that there is diversity in the types of carbonaceous phases present in these particles, as well as a heterogeneous distribution of the carbonaceous phases within these particles. The C‐XANES spectra obtained are different from C‐XANES spectra of carbonaceous chondrites and IDPs. In the particle Febo we found five spots showing a pronounced enrichment in the isotope 15N (δ15N from 420 to 639 ± 20 to 70‰, 1s̀) that were clearly associated with the C‐rich regions. The carbonaceous material has approximately solar C and D/H isotopic compositions, and the bulk O isotopic composition was found to be s̀17 O = −18 ± 13‰ and δ18 O = −37 ± 12‰ (1s̀). In the particle Ada we found a C‐rich phase with enrichments in the isotope 15N (δ15 N = 550 ± 70 ‰, 1s̀) and the isotope D (δD = 610 ± 254‰, 1s̀). The C isotopic composition at this phase is solar (δ13 C = −4 ± 29‰, 1s̀). 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E.</creatorcontrib><creatorcontrib>Joswiak, D.</creatorcontrib><creatorcontrib>Flynn, G.</creatorcontrib><creatorcontrib>Sandford, S.</creatorcontrib><creatorcontrib>Snead, C.</creatorcontrib><creatorcontrib>Westphal, A.</creatorcontrib><creatorcontrib>Brookhaven National Laboratory (BNL) National Synchrotron Light Source</creatorcontrib><title>Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study</title><title>Meteoritics & planetary science</title><description>— In this work we present the results of a systematic search for cometary organics in 14 Stardust particles (particles from comet 81P/Wild 2, captured by NASA's Stardust mission) by TEM and multidisciplinary studies (XANES and NanoSIMS) of Febo and Ada, two of the organic‐ bearing particles identified. The combination of the three analytical techniques has established the presence of organic, cometary C in both particles. Using energy‐filtered and high‐resolution imaging it was shown that the C is amorphous and rare, given that it is found in grains ≤200 nm in size that are not abundant throughout the particles. The XANES maps and spectra of the carbonaceous areas identified with the TEM have shown that the carbonaceous material is organic due to the presence of carbonyl (C=O) functional groups and the overlapping of C and N on the same grains. In addition, several different C‐XANES spectra were obtained from the same particle, suggesting that there is diversity in the types of carbonaceous phases present in these particles, as well as a heterogeneous distribution of the carbonaceous phases within these particles. The C‐XANES spectra obtained are different from C‐XANES spectra of carbonaceous chondrites and IDPs. In the particle Febo we found five spots showing a pronounced enrichment in the isotope 15N (δ15N from 420 to 639 ± 20 to 70‰, 1s̀) that were clearly associated with the C‐rich regions. The carbonaceous material has approximately solar C and D/H isotopic compositions, and the bulk O isotopic composition was found to be s̀17 O = −18 ± 13‰ and δ18 O = −37 ± 12‰ (1s̀). In the particle Ada we found a C‐rich phase with enrichments in the isotope 15N (δ15 N = 550 ± 70 ‰, 1s̀) and the isotope D (δD = 610 ± 254‰, 1s̀). The C isotopic composition at this phase is solar (δ13 C = −4 ± 29‰, 1s̀). The bulk O isotopic composition of Ada was found to be δ17 O = 9 ± 14.6‰ and δ18 O = −7.3 ± 8.1‰ (2s̀).</description><subject>Ada (programming language)</subject><subject>Atoms & subatomic particles</subject><subject>CARBON</subject><subject>CARBONACEOUS MATERIALS</subject><subject>CARBONYLS</subject><subject>CHONDRITES</subject><subject>COMETS</subject><subject>DISTRIBUTION</subject><subject>ENRICHMENT</subject><subject>FUNCTIONALS</subject><subject>INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY</subject><subject>ISOTOPES</subject><subject>Nanostructure</subject><subject>national synchrotron light source</subject><subject>PARTICLES</subject><subject>Phases</subject><subject>SIZE</subject><subject>SPECTRA</subject><subject>Transmission electron microscopy</subject><issn>1086-9379</issn><issn>1945-5100</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNqVUU1v1DAQjRBIlIX_YODCoQn-iOOkF7RaLW2l3aVSiuA2chwHvKTx1nbo7r-vo1Q9cGMuM5bfe5o3L0k-EJyRWJ_3GalynnKCcUYxLrPQYFxQnh1fJGfPXy_jjMsirZioXidvvN9jzDhh-Vlys5KusQMyw1_tg_klg4kv26HwYFEdpGtHH9BBumBUr_0FWqLb9fYc7eRg6-ttfY7k0KKfy926Rj6M7elt8qqTvdfvnvoi-f51fbu6SjffLq9Xy00qecl52rRK6rZRPO8KnctWdGXVtJhzTfJWKC0wJR1rcFGWTLScMtFQlpec0Sa6KHO2SN7PujauDV6ZoNVvZYdBqwBViXH0t0g-zZiDs_dj9Ad3xivd93LQdvRAclaJnNJqkvv4D3RvRzdEB0CoIFwUhLCIuphRylnvne7g4MyddCcgGKZAYA_T1WG6OkyBwFMgcIzkLzP5wfT69B9M2C5v6jhFhXRWMD7o47OCdH-gEExw-LG7hM2GM0xZDQV7BKr7npc</recordid><startdate>200802</startdate><enddate>200802</enddate><creator>Matrajt, G.</creator><creator>Ito, M.</creator><creator>Wirick, S.</creator><creator>Messenger, S.</creator><creator>Brownlee, D. 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E.</creatorcontrib><creatorcontrib>Joswiak, D.</creatorcontrib><creatorcontrib>Flynn, G.</creatorcontrib><creatorcontrib>Sandford, S.</creatorcontrib><creatorcontrib>Snead, C.</creatorcontrib><creatorcontrib>Westphal, A.</creatorcontrib><creatorcontrib>Brookhaven National Laboratory (BNL) National Synchrotron Light Source</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>OSTI.GOV</collection><jtitle>Meteoritics & planetary science</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Matrajt, G.</au><au>Ito, M.</au><au>Wirick, S.</au><au>Messenger, S.</au><au>Brownlee, D. E.</au><au>Joswiak, D.</au><au>Flynn, G.</au><au>Sandford, S.</au><au>Snead, C.</au><au>Westphal, A.</au><aucorp>Brookhaven National Laboratory (BNL) National Synchrotron Light Source</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study</atitle><jtitle>Meteoritics & planetary science</jtitle><date>2008-02</date><risdate>2008</risdate><volume>43</volume><issue>1-2</issue><spage>315</spage><epage>334</epage><pages>315-334</pages><issn>1086-9379</issn><eissn>1945-5100</eissn><coden>MPSCFY</coden><abstract>— In this work we present the results of a systematic search for cometary organics in 14 Stardust particles (particles from comet 81P/Wild 2, captured by NASA's Stardust mission) by TEM and multidisciplinary studies (XANES and NanoSIMS) of Febo and Ada, two of the organic‐ bearing particles identified. The combination of the three analytical techniques has established the presence of organic, cometary C in both particles. Using energy‐filtered and high‐resolution imaging it was shown that the C is amorphous and rare, given that it is found in grains ≤200 nm in size that are not abundant throughout the particles. The XANES maps and spectra of the carbonaceous areas identified with the TEM have shown that the carbonaceous material is organic due to the presence of carbonyl (C=O) functional groups and the overlapping of C and N on the same grains. In addition, several different C‐XANES spectra were obtained from the same particle, suggesting that there is diversity in the types of carbonaceous phases present in these particles, as well as a heterogeneous distribution of the carbonaceous phases within these particles. The C‐XANES spectra obtained are different from C‐XANES spectra of carbonaceous chondrites and IDPs. In the particle Febo we found five spots showing a pronounced enrichment in the isotope 15N (δ15N from 420 to 639 ± 20 to 70‰, 1s̀) that were clearly associated with the C‐rich regions. The carbonaceous material has approximately solar C and D/H isotopic compositions, and the bulk O isotopic composition was found to be s̀17 O = −18 ± 13‰ and δ18 O = −37 ± 12‰ (1s̀). In the particle Ada we found a C‐rich phase with enrichments in the isotope 15N (δ15 N = 550 ± 70 ‰, 1s̀) and the isotope D (δD = 610 ± 254‰, 1s̀). The C isotopic composition at this phase is solar (δ13 C = −4 ± 29‰, 1s̀). The bulk O isotopic composition of Ada was found to be δ17 O = 9 ± 14.6‰ and δ18 O = −7.3 ± 8.1‰ (2s̀).</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1111/j.1945-5100.2008.tb00625.x</doi><tpages>20</tpages><oa>free_for_read</oa></addata></record>
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subjects	Ada (programming language) Atoms & subatomic particles CARBON CARBONACEOUS MATERIALS CARBONYLS CHONDRITES COMETS DISTRIBUTION ENRICHMENT FUNCTIONALS INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ISOTOPES Nanostructure national synchrotron light source PARTICLES Phases SIZE SPECTRA Transmission electron microscopy
title	Carbon investigation of two Stardust particles: A TEM, NanoSIMS, and XANES study
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