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Coordination and Activation of Diazoalkanes in the Presence of Rh/Ru and Rh/Os Metal Combinations
The substituted diazoalkanesethyl diazoacetate (EDA), diethyl diazomalonate (DEDM), and trimethylsilyl diazomethane (TMSDM)react readily with the methylene-bridged tricarbonyl species [RhM(CO)3(μ-CH2)(dppm)2][CF3SO3] (M = Os (5), Ru (6); dppm = μ-Ph2PCH2PPh2) to produce the corresponding substitut...
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| Published in: | Organometallics 2008-07, Vol.27 (13), p.3070-3081 |
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| container_title | Organometallics |
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| creator | Samant, Rahul G Graham, Todd W Rowsell, Bryan D McDonald, Robert Cowie, Martin |
| description | The substituted diazoalkanesethyl diazoacetate (EDA), diethyl diazomalonate (DEDM), and trimethylsilyl diazomethane (TMSDM)react readily with the methylene-bridged tricarbonyl species [RhM(CO)3(μ-CH2)(dppm)2][CF3SO3] (M = Os (5), Ru (6); dppm = μ-Ph2PCH2PPh2) to produce the corresponding substituted olefin (through loss of N2 and subsequent coupling of the diazoalkane-generated alkylidene fragment and the methylene unit), the known tetracarbonyl species [RhM(CO)4(dppm)2][CF3SO3] (M = Os (1), Ru (2)), and uncharacterized decomposition products. In the reaction of 5 with EDA at −20 °C the intermediate olefin adduct, [RhOs(CO)3(η2-CH2-CHR)(dppm)2][CF3SO3] (7; R = CO2Et) is observed, which decomposes with release of the olefin upon warming. The methylene-bridged tetracarbonyl species [RhM(CO)4(μ-CH2)(dppm)2][CF3SO3] (M = Os(3), Ru (4)) also react with these diazoalkanes to yield the same products, only at a much slower rate. Attempts to generate the alkylidene-bridged products, analogous to 3 and 4, by reaction of 1 or 2 with EDA, DEDM, and TMSDM accompanied by loss of N2 instead gave complexes containing the diazoalkane unit. In the reaction with EDA condensation of this unit with a carbonyl ligand occurs accompanied by migration of the diazoalkane hydrogen to the carbonyl oxygen, yielding [RhM(CO)3(μ-η1:η1-N2C(COH)CO2Et)(dppm)2][CF3SO3] (M = Os (8), Ru (9)). The new diazoalkane-like group bridges the metals via the terminal nitrogen, while also binding to the group 8 metal via the enol carbon that originated from a carbonyl group. In the related reaction involving DEDM, substitution of a carbonyl yields [RhM(CO)3(μ-η1:η1-N2C(CO2Et)2)(dppm)2][CF3SO3] (M = Os (10), Ru (11)), in which the intact diazoalkane ligand again bridges via the terminal nitrogen. However, in this case one of the ester carbonyls binds to the group 8 metal, replacing the carbonyl group that was displaced. Although the RhRu compound 2 does not react with TMSDM, the analogous RhOs compound (1) does react, yielding [RhOs(CO)3(η1-Ν2CHSiMe3)(dppm)2][CF3SO3]] (12), in which the TMSDM ligand binds terminally on Os opposite the Rh−Os bond. |
| doi_str_mv | 10.1021/om700756q |
| format | article |
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In the reaction of 5 with EDA at −20 °C the intermediate olefin adduct, [RhOs(CO)3(η2-CH2-CHR)(dppm)2][CF3SO3] (7; R = CO2Et) is observed, which decomposes with release of the olefin upon warming. The methylene-bridged tetracarbonyl species [RhM(CO)4(μ-CH2)(dppm)2][CF3SO3] (M = Os(3), Ru (4)) also react with these diazoalkanes to yield the same products, only at a much slower rate. Attempts to generate the alkylidene-bridged products, analogous to 3 and 4, by reaction of 1 or 2 with EDA, DEDM, and TMSDM accompanied by loss of N2 instead gave complexes containing the diazoalkane unit. In the reaction with EDA condensation of this unit with a carbonyl ligand occurs accompanied by migration of the diazoalkane hydrogen to the carbonyl oxygen, yielding [RhM(CO)3(μ-η1:η1-N2C(COH)CO2Et)(dppm)2][CF3SO3] (M = Os (8), Ru (9)). The new diazoalkane-like group bridges the metals via the terminal nitrogen, while also binding to the group 8 metal via the enol carbon that originated from a carbonyl group. In the related reaction involving DEDM, substitution of a carbonyl yields [RhM(CO)3(μ-η1:η1-N2C(CO2Et)2)(dppm)2][CF3SO3] (M = Os (10), Ru (11)), in which the intact diazoalkane ligand again bridges via the terminal nitrogen. However, in this case one of the ester carbonyls binds to the group 8 metal, replacing the carbonyl group that was displaced. Although the RhRu compound 2 does not react with TMSDM, the analogous RhOs compound (1) does react, yielding [RhOs(CO)3(η1-Ν2CHSiMe3)(dppm)2][CF3SO3]] (12), in which the TMSDM ligand binds terminally on Os opposite the Rh−Os bond.</description><identifier>ISSN: 0276-7333</identifier><identifier>EISSN: 1520-6041</identifier><identifier>DOI: 10.1021/om700756q</identifier><language>eng</language><publisher>American Chemical Society</publisher><ispartof>Organometallics, 2008-07, Vol.27 (13), p.3070-3081</ispartof><rights>Copyright © 2008 American Chemical Society</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a297t-35e437f2cd10a2eb976b859b290298e3c596acdefec7be1c42ec955ad6d5354d3</citedby><cites>FETCH-LOGICAL-a297t-35e437f2cd10a2eb976b859b290298e3c596acdefec7be1c42ec955ad6d5354d3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Samant, Rahul G</creatorcontrib><creatorcontrib>Graham, Todd W</creatorcontrib><creatorcontrib>Rowsell, Bryan D</creatorcontrib><creatorcontrib>McDonald, Robert</creatorcontrib><creatorcontrib>Cowie, Martin</creatorcontrib><title>Coordination and Activation of Diazoalkanes in the Presence of Rh/Ru and Rh/Os Metal Combinations</title><title>Organometallics</title><addtitle>Organometallics</addtitle><description>The substituted diazoalkanesethyl diazoacetate (EDA), diethyl diazomalonate (DEDM), and trimethylsilyl diazomethane (TMSDM)react readily with the methylene-bridged tricarbonyl species [RhM(CO)3(μ-CH2)(dppm)2][CF3SO3] (M = Os (5), Ru (6); dppm = μ-Ph2PCH2PPh2) to produce the corresponding substituted olefin (through loss of N2 and subsequent coupling of the diazoalkane-generated alkylidene fragment and the methylene unit), the known tetracarbonyl species [RhM(CO)4(dppm)2][CF3SO3] (M = Os (1), Ru (2)), and uncharacterized decomposition products. In the reaction of 5 with EDA at −20 °C the intermediate olefin adduct, [RhOs(CO)3(η2-CH2-CHR)(dppm)2][CF3SO3] (7; R = CO2Et) is observed, which decomposes with release of the olefin upon warming. The methylene-bridged tetracarbonyl species [RhM(CO)4(μ-CH2)(dppm)2][CF3SO3] (M = Os(3), Ru (4)) also react with these diazoalkanes to yield the same products, only at a much slower rate. Attempts to generate the alkylidene-bridged products, analogous to 3 and 4, by reaction of 1 or 2 with EDA, DEDM, and TMSDM accompanied by loss of N2 instead gave complexes containing the diazoalkane unit. In the reaction with EDA condensation of this unit with a carbonyl ligand occurs accompanied by migration of the diazoalkane hydrogen to the carbonyl oxygen, yielding [RhM(CO)3(μ-η1:η1-N2C(COH)CO2Et)(dppm)2][CF3SO3] (M = Os (8), Ru (9)). The new diazoalkane-like group bridges the metals via the terminal nitrogen, while also binding to the group 8 metal via the enol carbon that originated from a carbonyl group. In the related reaction involving DEDM, substitution of a carbonyl yields [RhM(CO)3(μ-η1:η1-N2C(CO2Et)2)(dppm)2][CF3SO3] (M = Os (10), Ru (11)), in which the intact diazoalkane ligand again bridges via the terminal nitrogen. However, in this case one of the ester carbonyls binds to the group 8 metal, replacing the carbonyl group that was displaced. Although the RhRu compound 2 does not react with TMSDM, the analogous RhOs compound (1) does react, yielding [RhOs(CO)3(η1-Ν2CHSiMe3)(dppm)2][CF3SO3]] (12), in which the TMSDM ligand binds terminally on Os opposite the Rh−Os bond.</description><issn>0276-7333</issn><issn>1520-6041</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNptkD1PwzAQhi0EEqUw8A-8MDCE-iOO67FKgSKKWtoiRstxLmr6EYOdIuDXk5KKienudM890r0IXVJyQwmjPbeVhEiRvB-hDhWMRAmJ6THqECaTSHLOT9FZCCtCSCI56yCTOufzsjJ16SpsqhwPbF1-tKMr8LA0385s1qaCgMsK10vAUw8BKgv7_WzZm-1-75puEvAT1GaDU7fNDs5wjk4Kswlwcahd9HJ3u0hH0Xhy_5AOxpFhStYRFxBzWTCbU2IYZEomWV-ojCnCVB-4FSoxNocCrMyA2piBVUKYPMkFF3HOu-i69VrvQvBQ6Ddfbo3_0pTofTb6L5uGjVq2DDV8_oHGr3UTixR6MZ1rOpy_jobPj5o3_FXLGxv0yu181Xzyj_cHYb5yvw</recordid><startdate>20080714</startdate><enddate>20080714</enddate><creator>Samant, Rahul G</creator><creator>Graham, Todd W</creator><creator>Rowsell, Bryan D</creator><creator>McDonald, Robert</creator><creator>Cowie, Martin</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20080714</creationdate><title>Coordination and Activation of Diazoalkanes in the Presence of Rh/Ru and Rh/Os Metal Combinations</title><author>Samant, Rahul G ; Graham, Todd W ; Rowsell, Bryan D ; McDonald, Robert ; Cowie, Martin</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a297t-35e437f2cd10a2eb976b859b290298e3c596acdefec7be1c42ec955ad6d5354d3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2008</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Samant, Rahul G</creatorcontrib><creatorcontrib>Graham, Todd W</creatorcontrib><creatorcontrib>Rowsell, Bryan D</creatorcontrib><creatorcontrib>McDonald, Robert</creatorcontrib><creatorcontrib>Cowie, Martin</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><jtitle>Organometallics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Samant, Rahul G</au><au>Graham, Todd W</au><au>Rowsell, Bryan D</au><au>McDonald, Robert</au><au>Cowie, Martin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Coordination and Activation of Diazoalkanes in the Presence of Rh/Ru and Rh/Os Metal Combinations</atitle><jtitle>Organometallics</jtitle><addtitle>Organometallics</addtitle><date>2008-07-14</date><risdate>2008</risdate><volume>27</volume><issue>13</issue><spage>3070</spage><epage>3081</epage><pages>3070-3081</pages><issn>0276-7333</issn><eissn>1520-6041</eissn><abstract>The substituted diazoalkanesethyl diazoacetate (EDA), diethyl diazomalonate (DEDM), and trimethylsilyl diazomethane (TMSDM)react readily with the methylene-bridged tricarbonyl species [RhM(CO)3(μ-CH2)(dppm)2][CF3SO3] (M = Os (5), Ru (6); dppm = μ-Ph2PCH2PPh2) to produce the corresponding substituted olefin (through loss of N2 and subsequent coupling of the diazoalkane-generated alkylidene fragment and the methylene unit), the known tetracarbonyl species [RhM(CO)4(dppm)2][CF3SO3] (M = Os (1), Ru (2)), and uncharacterized decomposition products. In the reaction of 5 with EDA at −20 °C the intermediate olefin adduct, [RhOs(CO)3(η2-CH2-CHR)(dppm)2][CF3SO3] (7; R = CO2Et) is observed, which decomposes with release of the olefin upon warming. The methylene-bridged tetracarbonyl species [RhM(CO)4(μ-CH2)(dppm)2][CF3SO3] (M = Os(3), Ru (4)) also react with these diazoalkanes to yield the same products, only at a much slower rate. Attempts to generate the alkylidene-bridged products, analogous to 3 and 4, by reaction of 1 or 2 with EDA, DEDM, and TMSDM accompanied by loss of N2 instead gave complexes containing the diazoalkane unit. In the reaction with EDA condensation of this unit with a carbonyl ligand occurs accompanied by migration of the diazoalkane hydrogen to the carbonyl oxygen, yielding [RhM(CO)3(μ-η1:η1-N2C(COH)CO2Et)(dppm)2][CF3SO3] (M = Os (8), Ru (9)). The new diazoalkane-like group bridges the metals via the terminal nitrogen, while also binding to the group 8 metal via the enol carbon that originated from a carbonyl group. In the related reaction involving DEDM, substitution of a carbonyl yields [RhM(CO)3(μ-η1:η1-N2C(CO2Et)2)(dppm)2][CF3SO3] (M = Os (10), Ru (11)), in which the intact diazoalkane ligand again bridges via the terminal nitrogen. However, in this case one of the ester carbonyls binds to the group 8 metal, replacing the carbonyl group that was displaced. Although the RhRu compound 2 does not react with TMSDM, the analogous RhOs compound (1) does react, yielding [RhOs(CO)3(η1-Ν2CHSiMe3)(dppm)2][CF3SO3]] (12), in which the TMSDM ligand binds terminally on Os opposite the Rh−Os bond.</abstract><pub>American Chemical Society</pub><doi>10.1021/om700756q</doi><tpages>12</tpages></addata></record> |
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| title | Coordination and Activation of Diazoalkanes in the Presence of Rh/Ru and Rh/Os Metal Combinations |
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