Chemistry of Mangana- and Rhenatricarbadecaboranyl Tricarbonyl Complexes: Evidence for an Associative Mechanism of Ligand Substitution Involving an η6−η4 Cage-Slippage Process Analagous to η5−η3-Cyclopentadienyl Ring-Slippage

The reaction of the tricarbadecaboranyl anion, 6-Ph-nido-5,6,9-C3B7H9 -, with M(CO)5Br [M = Mn, Re] or [(η6-C10H8)Mn(CO)3 +]BF4 - yielded the half-sandwich metallatricarbadecaboranyl analogues of (η5-C5H5)M(CO)3 [M = Mn, Re]. For both 1,1,1-(CO)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (2) and Re (3)], t...

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Veröffentlicht in:	Journal of the American Chemical Society 2006-07, Vol.128 (26), p.8626-8637
Hauptverfasser:	Butterick, Robert, Ramachandran, Bhaskar M, Carroll, Patrick J, Sneddon, Larry G
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Sprache:	eng
Schlagworte:	Chemistry Exact sciences and technology Inorganic chemistry and origins of life Kinetics and mechanism of reactions
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description	The reaction of the tricarbadecaboranyl anion, 6-Ph-nido-5,6,9-C3B7H9 -, with M(CO)5Br [M = Mn, Re] or [(η6-C10H8)Mn(CO)3 +]BF4 - yielded the half-sandwich metallatricarbadecaboranyl analogues of (η5-C5H5)M(CO)3 [M = Mn, Re]. For both 1,1,1-(CO)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (2) and Re (3)], the metal is η6-coordinated to the puckered six-membered open face of the tricarbadecaboranyl cage. Reactions of 2 and 3 with isocyanide at room temperature produced complexes 8-(CNBut)-8,8,8-(CO)3-9-Ph-nido-8,7,9,10-MC3B7H9 [M = Mn (4), Re (5)], having the cage η4-coordinated to the metal. Photolysis of 4 and 5 then resulted in the loss of CO and the formation of 1-(CNBut)-1,1-(CO)2-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn, Re (6)], where the cage is again η6-coordinated to the metal. Reaction of 2 and 3 with 1 equiv of phosphine at room temperature produced the η6-coordinated monosubstituted complexes 1,1-(CO)2-1-P(CH3)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (7), Re (9)] and 1,1-(CO)2-1-P(C6H5)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (8), Re (10)]. NMR studies of these reactions at −40 °C showed that substitution occurs by an associative mechanism involving the initial formation of intermediates having structures similar to those of the η4-complexes 4 and 5. The observed η6−η4 cage-slippage is analogous to the η5−η3 ring-slippage that has been proposed to take place in related substitution reactions of cyclopentadienyl−metal complexes. Reaction of 9 with an additional equivalent of P(CH3)3 gave 8,8-(CO)2-8,8-(P(CH3)3)2-9-Ph-nido-8,7,9,10-ReC3B7H9 (11), where the cage is η4-coordinated to the metal. Photolysis of 11 resulted in the loss of CO and the formation of the disubstituted η6-complex 1-CO-1,1-(P(CH3)3)2-2-Ph-closo-1,2,3,4-ReC3B7H9 (12).
doi_str_mv	10.1021/ja062201u
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For both 1,1,1-(CO)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (2) and Re (3)], the metal is η6-coordinated to the puckered six-membered open face of the tricarbadecaboranyl cage. Reactions of 2 and 3 with isocyanide at room temperature produced complexes 8-(CNBut)-8,8,8-(CO)3-9-Ph-nido-8,7,9,10-MC3B7H9 [M = Mn (4), Re (5)], having the cage η4-coordinated to the metal. Photolysis of 4 and 5 then resulted in the loss of CO and the formation of 1-(CNBut)-1,1-(CO)2-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn, Re (6)], where the cage is again η6-coordinated to the metal. Reaction of 2 and 3 with 1 equiv of phosphine at room temperature produced the η6-coordinated monosubstituted complexes 1,1-(CO)2-1-P(CH3)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (7), Re (9)] and 1,1-(CO)2-1-P(C6H5)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (8), Re (10)]. NMR studies of these reactions at −40 °C showed that substitution occurs by an associative mechanism involving the initial formation of intermediates having structures similar to those of the η4-complexes 4 and 5. The observed η6−η4 cage-slippage is analogous to the η5−η3 ring-slippage that has been proposed to take place in related substitution reactions of cyclopentadienyl−metal complexes. Reaction of 9 with an additional equivalent of P(CH3)3 gave 8,8-(CO)2-8,8-(P(CH3)3)2-9-Ph-nido-8,7,9,10-ReC3B7H9 (11), where the cage is η4-coordinated to the metal. Photolysis of 11 resulted in the loss of CO and the formation of the disubstituted η6-complex 1-CO-1,1-(P(CH3)3)2-2-Ph-closo-1,2,3,4-ReC3B7H9 (12).</description><identifier>ISSN: 0002-7863</identifier><identifier>EISSN: 1520-5126</identifier><identifier>DOI: 10.1021/ja062201u</identifier><identifier>CODEN: JACSAT</identifier><language>eng</language><publisher>Washington, DC: American Chemical Society</publisher><subject>Chemistry ; Exact sciences and technology ; Inorganic chemistry and origins of life ; Kinetics and mechanism of reactions</subject><ispartof>Journal of the American Chemical Society, 2006-07, Vol.128 (26), p.8626-8637</ispartof><rights>Copyright © 2006 American Chemical Society</rights><rights>2006 INIST-CNRS</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://pubs.acs.org/doi/pdf/10.1021/ja062201u$$EPDF$$P50$$Gacs$$H</linktopdf><linktohtml>$$Uhttps://pubs.acs.org/doi/10.1021/ja062201u$$EHTML$$P50$$Gacs$$H</linktohtml><link.rule.ids>314,780,784,27076,27924,27925,56738,56788</link.rule.ids><backlink>$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=17934246$$DView record in Pascal Francis$$Hfree_for_read</backlink></links><search><creatorcontrib>Butterick, Robert</creatorcontrib><creatorcontrib>Ramachandran, Bhaskar M</creatorcontrib><creatorcontrib>Carroll, Patrick J</creatorcontrib><creatorcontrib>Sneddon, Larry G</creatorcontrib><title>Chemistry of Mangana- and Rhenatricarbadecaboranyl Tricarbonyl Complexes: Evidence for an Associative Mechanism of Ligand Substitution Involving an η6−η4 Cage-Slippage Process Analagous to η5−η3-Cyclopentadienyl Ring-Slippage</title><title>Journal of the American Chemical Society</title><addtitle>J. Am. Chem. Soc</addtitle><description>The reaction of the tricarbadecaboranyl anion, 6-Ph-nido-5,6,9-C3B7H9 -, with M(CO)5Br [M = Mn, Re] or [(η6-C10H8)Mn(CO)3 +]BF4 - yielded the half-sandwich metallatricarbadecaboranyl analogues of (η5-C5H5)M(CO)3 [M = Mn, Re]. For both 1,1,1-(CO)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (2) and Re (3)], the metal is η6-coordinated to the puckered six-membered open face of the tricarbadecaboranyl cage. Reactions of 2 and 3 with isocyanide at room temperature produced complexes 8-(CNBut)-8,8,8-(CO)3-9-Ph-nido-8,7,9,10-MC3B7H9 [M = Mn (4), Re (5)], having the cage η4-coordinated to the metal. Photolysis of 4 and 5 then resulted in the loss of CO and the formation of 1-(CNBut)-1,1-(CO)2-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn, Re (6)], where the cage is again η6-coordinated to the metal. Reaction of 2 and 3 with 1 equiv of phosphine at room temperature produced the η6-coordinated monosubstituted complexes 1,1-(CO)2-1-P(CH3)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (7), Re (9)] and 1,1-(CO)2-1-P(C6H5)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (8), Re (10)]. NMR studies of these reactions at −40 °C showed that substitution occurs by an associative mechanism involving the initial formation of intermediates having structures similar to those of the η4-complexes 4 and 5. The observed η6−η4 cage-slippage is analogous to the η5−η3 ring-slippage that has been proposed to take place in related substitution reactions of cyclopentadienyl−metal complexes. Reaction of 9 with an additional equivalent of P(CH3)3 gave 8,8-(CO)2-8,8-(P(CH3)3)2-9-Ph-nido-8,7,9,10-ReC3B7H9 (11), where the cage is η4-coordinated to the metal. Photolysis of 11 resulted in the loss of CO and the formation of the disubstituted η6-complex 1-CO-1,1-(P(CH3)3)2-2-Ph-closo-1,2,3,4-ReC3B7H9 (12).</description><subject>Chemistry</subject><subject>Exact sciences and technology</subject><subject>Inorganic chemistry and origins of life</subject><subject>Kinetics and mechanism of reactions</subject><issn>0002-7863</issn><issn>1520-5126</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><recordid>eNpFkcGO0zAQhiMEEmXhwBv4wjFgO7GTcKuiha7oiqqtEDdr4jipS2pHdlJtbxzhysvsW-xD7JmHwKGoXDzj8Tf_WP9E0WuC3xJMybs9YE4pJuOTaEYYxTEjlD-NZhhjGmc5T55HL7zfh2tKczKLfpc7ddB-cCdkG3QLpgUDMQJTo_VOGRicluAqqJWEyjowpw5tzzU75aU99J26U_794_ef6Pqoa2WkQo11QQPNvbdSw6CPCt0quQOj_WEatNTtNGIzVn7Qwzhoa9CNOdruqE07dT7c88cfvx7uU1RCq-JNp_s-JGjlrFTeo7mBDlo7ejTYALO_cBKXJ9nZXpkBaq2m_62D3qX7ZfSsgc6rV__iVbT9cL0tF_Hy88ebcr6Moch5zFleAC_yDOOsoklNE8rqOg1HQlgq86phCVPB1po1nOcBTzNeEd4U0ChGquQqenOW7cFL6JrgmtRe9E4fwJ0EyYokpSkPXHzmgv_q7vIO7pvgWZIxsV1tBN98-fpptViLxX9dkF7s7eiCB14QLKbNi8vmkz_dnKnL</recordid><startdate>20060705</startdate><enddate>20060705</enddate><creator>Butterick, Robert</creator><creator>Ramachandran, Bhaskar M</creator><creator>Carroll, Patrick J</creator><creator>Sneddon, Larry G</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>IQODW</scope></search><sort><creationdate>20060705</creationdate><title>Chemistry of Mangana- and Rhenatricarbadecaboranyl Tricarbonyl Complexes: Evidence for an Associative Mechanism of Ligand Substitution Involving an η6−η4 Cage-Slippage Process Analagous to η5−η3-Cyclopentadienyl Ring-Slippage</title><author>Butterick, Robert ; Ramachandran, Bhaskar M ; Carroll, Patrick J ; Sneddon, Larry G</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a986-6589a6987007b23d2325dd425d3154c8bf535e126d5f668658476b16f9afe51b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2006</creationdate><topic>Chemistry</topic><topic>Exact sciences and technology</topic><topic>Inorganic chemistry and origins of life</topic><topic>Kinetics and mechanism of reactions</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Butterick, Robert</creatorcontrib><creatorcontrib>Ramachandran, Bhaskar M</creatorcontrib><creatorcontrib>Carroll, Patrick J</creatorcontrib><creatorcontrib>Sneddon, Larry G</creatorcontrib><collection>Istex</collection><collection>Pascal-Francis</collection><jtitle>Journal of the American Chemical Society</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Butterick, Robert</au><au>Ramachandran, Bhaskar M</au><au>Carroll, Patrick J</au><au>Sneddon, Larry G</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Chemistry of Mangana- and Rhenatricarbadecaboranyl Tricarbonyl Complexes: Evidence for an Associative Mechanism of Ligand Substitution Involving an η6−η4 Cage-Slippage Process Analagous to η5−η3-Cyclopentadienyl Ring-Slippage</atitle><jtitle>Journal of the American Chemical Society</jtitle><addtitle>J. Am. Chem. Soc</addtitle><date>2006-07-05</date><risdate>2006</risdate><volume>128</volume><issue>26</issue><spage>8626</spage><epage>8637</epage><pages>8626-8637</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><coden>JACSAT</coden><abstract>The reaction of the tricarbadecaboranyl anion, 6-Ph-nido-5,6,9-C3B7H9 -, with M(CO)5Br [M = Mn, Re] or [(η6-C10H8)Mn(CO)3 +]BF4 - yielded the half-sandwich metallatricarbadecaboranyl analogues of (η5-C5H5)M(CO)3 [M = Mn, Re]. For both 1,1,1-(CO)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (2) and Re (3)], the metal is η6-coordinated to the puckered six-membered open face of the tricarbadecaboranyl cage. Reactions of 2 and 3 with isocyanide at room temperature produced complexes 8-(CNBut)-8,8,8-(CO)3-9-Ph-nido-8,7,9,10-MC3B7H9 [M = Mn (4), Re (5)], having the cage η4-coordinated to the metal. Photolysis of 4 and 5 then resulted in the loss of CO and the formation of 1-(CNBut)-1,1-(CO)2-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn, Re (6)], where the cage is again η6-coordinated to the metal. Reaction of 2 and 3 with 1 equiv of phosphine at room temperature produced the η6-coordinated monosubstituted complexes 1,1-(CO)2-1-P(CH3)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (7), Re (9)] and 1,1-(CO)2-1-P(C6H5)3-2-Ph-closo-1,2,3,4-MC3B7H9 [M = Mn (8), Re (10)]. NMR studies of these reactions at −40 °C showed that substitution occurs by an associative mechanism involving the initial formation of intermediates having structures similar to those of the η4-complexes 4 and 5. The observed η6−η4 cage-slippage is analogous to the η5−η3 ring-slippage that has been proposed to take place in related substitution reactions of cyclopentadienyl−metal complexes. Reaction of 9 with an additional equivalent of P(CH3)3 gave 8,8-(CO)2-8,8-(P(CH3)3)2-9-Ph-nido-8,7,9,10-ReC3B7H9 (11), where the cage is η4-coordinated to the metal. Photolysis of 11 resulted in the loss of CO and the formation of the disubstituted η6-complex 1-CO-1,1-(P(CH3)3)2-2-Ph-closo-1,2,3,4-ReC3B7H9 (12).</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><doi>10.1021/ja062201u</doi><tpages>12</tpages></addata></record>
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title	Chemistry of Mangana- and Rhenatricarbadecaboranyl Tricarbonyl Complexes: Evidence for an Associative Mechanism of Ligand Substitution Involving an η6−η4 Cage-Slippage Process Analagous to η5−η3-Cyclopentadienyl Ring-Slippage
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