Cluster Expansion Reactions of Group 6 Metallaboranes. Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3

The targeted high-yield syntheses of a number of new clusters by the controlled addition of BH, Fe(CO)3, or Co(CO)3 fragments to dinuclear group 6 metallaboranes are reported. The reaction of the chromaborane, (Cp*Cr)2B4H8 (1), Cp* = η5-C5Me5, with BHCl2·SMe2 results in a cluster expansion reaction...

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Veröffentlicht in:	Inorganic chemistry 1998-03, Vol.37 (5), p.928-940
Hauptverfasser:	Aldridge, Simon, Hashimoto, Hisako, Kawamura, Kazumori, Shang, Maoyu, Fehlner, Thomas P
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creator	Aldridge, Simon Hashimoto, Hisako Kawamura, Kazumori Shang, Maoyu Fehlner, Thomas P
description	The targeted high-yield syntheses of a number of new clusters by the controlled addition of BH, Fe(CO)3, or Co(CO)3 fragments to dinuclear group 6 metallaboranes are reported. The reaction of the chromaborane, (CpCr)2B4H8 (1), Cp = η5-C5Me5, with BHCl2·SMe2 results in a cluster expansion reaction giving the green-brown diamagnetic species (CpCr)2B5H9 (2) in 43% yield. The six skeletal electron pair (sep) cluster has a structure based on a trigonal bipyramidal Cr2B3 unit with adjacent Cr2B faces capped by BH3 fragments. Reaction of 1 with the dinuclear metal carbonyls Fe2(CO)9 and Co2(CO)8 leads to the isolation of the mixed-metal metallaboranes (CpCr)2B4H8Fe(CO)3 (3) and (CpCr)2B4H7Co(CO)3 (4) in yields of 76 and 87%, respectively. 3 and 4 can also be viewed as six-sep bicapped trigonal bipyramidal clusters with the metal carbonyl occupying one of the capping positions. Alternatively, they can be viewed as complexes between M(CO)3 transition metal fragments (M = Fe, Co) and the four-electron (CpCr)2B4H8 (M = Fe) or three-electron (CpCr)2B4H7 (M = Co) ligands. In this way, by forming two M−Cr bonds and utilizing either one (M = Co) or two (M = Fe) BH→M donor−acceptor bonds, each metal attains an 18-electron configuration. At elevated temperatures (ca. 80 °C), 3 is fluxional, with the Fe(CO)3 fragment “swinging” between equivalent pairs of BH2 donor groups. Reaction of the molybdaborane (CpMo)2B5H9 (5) with Fe2(CO)9 gives the orange mixed-metal cluster (Cp*Mo)2B5H9Fe(CO)3 (6) in 48% yield. 6 has a bicapped octahedral geometry with the Fe(CO)3 fragment occupying one of the high-connectivity cluster vertexes, rather than a capping position. That 5 undergoes the expected geometric changes (bicapped trigonal bipyramid → bicapped octahedron) on addition of the two-electron Fe(CO)3 fragment (giving 6) contrasts with the minimal structural perturbation on addition of the same fragment to 1 (yielding 3). This in turn provides further evidence for the description of 1 as an “electronically unsaturated” cluster.
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Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3</title><source>ACS Publications</source><creator>Aldridge, Simon ; Hashimoto, Hisako ; Kawamura, Kazumori ; Shang, Maoyu ; Fehlner, Thomas P</creator><creatorcontrib>Aldridge, Simon ; Hashimoto, Hisako ; Kawamura, Kazumori ; Shang, Maoyu ; Fehlner, Thomas P</creatorcontrib><description>The targeted high-yield syntheses of a number of new clusters by the controlled addition of BH, Fe(CO)3, or Co(CO)3 fragments to dinuclear group 6 metallaboranes are reported. The reaction of the chromaborane, (CpCr)2B4H8 (1), Cp = η5-C5Me5, with BHCl2·SMe2 results in a cluster expansion reaction giving the green-brown diamagnetic species (CpCr)2B5H9 (2) in 43% yield. The six skeletal electron pair (sep) cluster has a structure based on a trigonal bipyramidal Cr2B3 unit with adjacent Cr2B faces capped by BH3 fragments. Reaction of 1 with the dinuclear metal carbonyls Fe2(CO)9 and Co2(CO)8 leads to the isolation of the mixed-metal metallaboranes (CpCr)2B4H8Fe(CO)3 (3) and (CpCr)2B4H7Co(CO)3 (4) in yields of 76 and 87%, respectively. 3 and 4 can also be viewed as six-sep bicapped trigonal bipyramidal clusters with the metal carbonyl occupying one of the capping positions. Alternatively, they can be viewed as complexes between M(CO)3 transition metal fragments (M = Fe, Co) and the four-electron (CpCr)2B4H8 (M = Fe) or three-electron (CpCr)2B4H7 (M = Co) ligands. In this way, by forming two M−Cr bonds and utilizing either one (M = Co) or two (M = Fe) BH→M donor−acceptor bonds, each metal attains an 18-electron configuration. At elevated temperatures (ca. 80 °C), 3 is fluxional, with the Fe(CO)3 fragment “swinging” between equivalent pairs of BH2 donor groups. Reaction of the molybdaborane (CpMo)2B5H9 (5) with Fe2(CO)9 gives the orange mixed-metal cluster (CpMo)2B5H9Fe(CO)3 (6) in 48% yield. 6 has a bicapped octahedral geometry with the Fe(CO)3 fragment occupying one of the high-connectivity cluster vertexes, rather than a capping position. That 5 undergoes the expected geometric changes (bicapped trigonal bipyramid → bicapped octahedron) on addition of the two-electron Fe(CO)3 fragment (giving 6) contrasts with the minimal structural perturbation on addition of the same fragment to 1 (yielding 3). This in turn provides further evidence for the description of 1 as an “electronically unsaturated” cluster.</description><identifier>ISSN: 0020-1669</identifier><identifier>EISSN: 1520-510X</identifier><identifier>DOI: 10.1021/ic971251k</identifier><language>eng</language><publisher>American Chemical Society</publisher><ispartof>Inorganic chemistry, 1998-03, Vol.37 (5), p.928-940</ispartof><rights>Copyright © 1998 American Chemical Society</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/ic971251k$$EPDF$$P50$$Gacs$$H</linktopdf><linktohtml>$$Uhttps://pubs.acs.org/doi/10.1021/ic971251k$$EHTML$$P50$$Gacs$$H</linktohtml><link.rule.ids>314,776,780,27055,27903,27904,56716,56766</link.rule.ids></links><search><creatorcontrib>Aldridge, Simon</creatorcontrib><creatorcontrib>Hashimoto, Hisako</creatorcontrib><creatorcontrib>Kawamura, Kazumori</creatorcontrib><creatorcontrib>Shang, Maoyu</creatorcontrib><creatorcontrib>Fehlner, Thomas P</creatorcontrib><title>Cluster Expansion Reactions of Group 6 Metallaboranes. Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3</title><title>Inorganic chemistry</title><addtitle>Inorg. Chem</addtitle><description>The targeted high-yield syntheses of a number of new clusters by the controlled addition of BH, Fe(CO)3, or Co(CO)3 fragments to dinuclear group 6 metallaboranes are reported. The reaction of the chromaborane, (CpCr)2B4H8 (1), Cp* = η5-C5Me5, with BHCl2·SMe2 results in a cluster expansion reaction giving the green-brown diamagnetic species (CpCr)2B5H9 (2) in 43% yield. The six skeletal electron pair (sep) cluster has a structure based on a trigonal bipyramidal Cr2B3 unit with adjacent Cr2B faces capped by BH3 fragments. Reaction of 1 with the dinuclear metal carbonyls Fe2(CO)9 and Co2(CO)8 leads to the isolation of the mixed-metal metallaboranes (CpCr)2B4H8Fe(CO)3 (3) and (CpCr)2B4H7Co(CO)3 (4) in yields of 76 and 87%, respectively. 3 and 4 can also be viewed as six-sep bicapped trigonal bipyramidal clusters with the metal carbonyl occupying one of the capping positions. Alternatively, they can be viewed as complexes between M(CO)3 transition metal fragments (M = Fe, Co) and the four-electron (CpCr)2B4H8 (M = Fe) or three-electron (CpCr)2B4H7 (M = Co) ligands. In this way, by forming two M−Cr bonds and utilizing either one (M = Co) or two (M = Fe) BH→M donor−acceptor bonds, each metal attains an 18-electron configuration. At elevated temperatures (ca. 80 °C), 3 is fluxional, with the Fe(CO)3 fragment “swinging” between equivalent pairs of BH2 donor groups. Reaction of the molybdaborane (CpMo)2B5H9 (5) with Fe2(CO)9 gives the orange mixed-metal cluster (CpMo)2B5H9Fe(CO)3 (6) in 48% yield. 6 has a bicapped octahedral geometry with the Fe(CO)3 fragment occupying one of the high-connectivity cluster vertexes, rather than a capping position. That 5 undergoes the expected geometric changes (bicapped trigonal bipyramid → bicapped octahedron) on addition of the two-electron Fe(CO)3 fragment (giving 6) contrasts with the minimal structural perturbation on addition of the same fragment to 1 (yielding 3). This in turn provides further evidence for the description of 1 as an “electronically unsaturated” cluster.</description><issn>0020-1669</issn><issn>1520-510X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1998</creationdate><recordtype>article</recordtype><recordid>eNpNkd9LwzAQx4MoOKcP_gd5ESasM2mbZH3U6DbFXzgF38I1TbFzNiVpwfkX-meZsTF8urvPfe_LcYfQKSUjSmJ6UelM0JjRzz3UoywmEaPkfR_1CAk55Tw7REfeLwghWZLyHvqVy863xuGb7wZqX9kavxjQbUg8tiWeOts1mOMH08JyCbl1UBs_wvNV3X4Yb_wQS7fyoYnnret027k1g7rA88bo1lmvbVNpLD_ABV_jqh_YuQ9kI915fMVm2XBXpLPxxAzk03nynwlpt2ztHfiD3QxutcfooISlNyfb2Edvk5tXOYvun6a38vI-AprwNtIMqBHM5OlYCKCgNSd8zFkWICsgTwznJBM5L8N9CkOLwoxznaUxQFlCEid9FG18q3C2b9W46gvcSoH7VFwkgqnX57kS19nje0rv1DTozzZ60F4tbOfqsJ2iRK3fpXbvSv4A9z2ELg</recordid><startdate>19980309</startdate><enddate>19980309</enddate><creator>Aldridge, Simon</creator><creator>Hashimoto, Hisako</creator><creator>Kawamura, Kazumori</creator><creator>Shang, Maoyu</creator><creator>Fehlner, Thomas P</creator><general>American Chemical Society</general><scope>BSCLL</scope></search><sort><creationdate>19980309</creationdate><title>Cluster Expansion Reactions of Group 6 Metallaboranes. Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3</title><author>Aldridge, Simon ; Hashimoto, Hisako ; Kawamura, Kazumori ; Shang, Maoyu ; Fehlner, Thomas P</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a136t-c5a1e75eb4877a1acc6068659e755dab3e66097b6f934de1dde8bc942aaffa323</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1998</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Aldridge, Simon</creatorcontrib><creatorcontrib>Hashimoto, Hisako</creatorcontrib><creatorcontrib>Kawamura, Kazumori</creatorcontrib><creatorcontrib>Shang, Maoyu</creatorcontrib><creatorcontrib>Fehlner, Thomas P</creatorcontrib><collection>Istex</collection><jtitle>Inorganic chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Aldridge, Simon</au><au>Hashimoto, Hisako</au><au>Kawamura, Kazumori</au><au>Shang, Maoyu</au><au>Fehlner, Thomas P</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Cluster Expansion Reactions of Group 6 Metallaboranes. Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3</atitle><jtitle>Inorganic chemistry</jtitle><addtitle>Inorg. Chem</addtitle><date>1998-03-09</date><risdate>1998</risdate><volume>37</volume><issue>5</issue><spage>928</spage><epage>940</epage><pages>928-940</pages><issn>0020-1669</issn><eissn>1520-510X</eissn><abstract>The targeted high-yield syntheses of a number of new clusters by the controlled addition of BH, Fe(CO)3, or Co(CO)3 fragments to dinuclear group 6 metallaboranes are reported. The reaction of the chromaborane, (CpCr)2B4H8 (1), Cp* = η5-C5Me5, with BHCl2·SMe2 results in a cluster expansion reaction giving the green-brown diamagnetic species (CpCr)2B5H9 (2) in 43% yield. The six skeletal electron pair (sep) cluster has a structure based on a trigonal bipyramidal Cr2B3 unit with adjacent Cr2B faces capped by BH3 fragments. Reaction of 1 with the dinuclear metal carbonyls Fe2(CO)9 and Co2(CO)8 leads to the isolation of the mixed-metal metallaboranes (CpCr)2B4H8Fe(CO)3 (3) and (CpCr)2B4H7Co(CO)3 (4) in yields of 76 and 87%, respectively. 3 and 4 can also be viewed as six-sep bicapped trigonal bipyramidal clusters with the metal carbonyl occupying one of the capping positions. Alternatively, they can be viewed as complexes between M(CO)3 transition metal fragments (M = Fe, Co) and the four-electron (CpCr)2B4H8 (M = Fe) or three-electron (CpCr)2B4H7 (M = Co) ligands. In this way, by forming two M−Cr bonds and utilizing either one (M = Co) or two (M = Fe) BH→M donor−acceptor bonds, each metal attains an 18-electron configuration. At elevated temperatures (ca. 80 °C), 3 is fluxional, with the Fe(CO)3 fragment “swinging” between equivalent pairs of BH2 donor groups. Reaction of the molybdaborane (CpMo)2B5H9 (5) with Fe2(CO)9 gives the orange mixed-metal cluster (Cp*Mo)2B5H9Fe(CO)3 (6) in 48% yield. 6 has a bicapped octahedral geometry with the Fe(CO)3 fragment occupying one of the high-connectivity cluster vertexes, rather than a capping position. That 5 undergoes the expected geometric changes (bicapped trigonal bipyramid → bicapped octahedron) on addition of the two-electron Fe(CO)3 fragment (giving 6) contrasts with the minimal structural perturbation on addition of the same fragment to 1 (yielding 3). This in turn provides further evidence for the description of 1 as an “electronically unsaturated” cluster.</abstract><pub>American Chemical Society</pub><doi>10.1021/ic971251k</doi><tpages>13</tpages></addata></record>
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title	Cluster Expansion Reactions of Group 6 Metallaboranes. Syntheses, Crystal Structures, and Spectroscopic Characterizations of (CpCr)2B5H9, (CpCr)2B4H8Fe(CO)3, (CpCr)2B4H7Co(CO)3, and (CpMo)2B5H9Fe(CO)3
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