Reactions at the Boron-Carbon Double Bond of Methyl(methylidene)boranes

The addition of Lewis bases L to the methyl(methylidene)boranes MeB=CA2(A = SiMe3) and MeB=CAA′ (A′ = SiMe2Cl) gives the adducts MeB(L)=CA2 (1a, b; L = trimethylpyridine, PMe3) and MeB(L)=CAA′ (1c, d; L = di‐ and trimethylpyridine), respectively. Alcohols and amines HX are added to the BC double bon...

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Veröffentlicht in:	Zeitschrift für anorganische und allgemeine Chemie (1950) 2004-04, Vol.630 (4), p.508-518
Hauptverfasser:	Paetzold, Peter, Englert, Ulli, Finger, Rudolf, Schmitz, Thomas, Tapper, Alexander, Ziembinski, Ralf
Format:	Artikel
Sprache:	eng
Schlagworte:	(2+2) Cycloaddition 2+3) Cycloaddition Boron carbon double bond Metathesis
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container_title	Zeitschrift für anorganische und allgemeine Chemie (1950)
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creator	Paetzold, Peter Englert, Ulli Finger, Rudolf Schmitz, Thomas Tapper, Alexander Ziembinski, Ralf
description	The addition of Lewis bases L to the methyl(methylidene)boranes MeB=CA2(A = SiMe3) and MeB=CAA′ (A′ = SiMe2Cl) gives the adducts MeB(L)=CA2 (1a, b; L = trimethylpyridine, PMe3) and MeB(L)=CAA′ (1c, d; L = di‐ and trimethylpyridine), respectively. Alcohols and amines HX are added to the BC double bond to give boranes MeB(X)—CHA2 (8a—c; X = OiPr, OtBu, NiPr2); MeB=CAA′ and HNMe2 react in the ratio 1:2, yielding MeB(X)—CHA(SiMe2X) (2d; X = NMe2). From MeB=CA2 and BH3, the five‐membered ring [—CA2—BH—CA2—BMe(Hm)2BMe—] (2e; 2:1) or the six‐membered ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1) are formed, both containing double hydrogen bridges; the product 2f crystallizes in the space group P1¯. The metallocene trihydrides [Cp2MH3] add to the BC double bond under formation of a double hydrogen bridge to give [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Nb, Ta). MeB=CA2 can be chloroborated, ‐stannated, and ‐phosphated with E—Cl to yield the boryldisilylmethanes MeB(Cl)—CA2—E (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). The alkyloboration and ‐alumination with E—R leads to the boryldisilylmethanes MeBR—SiA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) and the bromination to MeB(Br)—CA2Br. (2+2) Cycloadditions are achieved, when MeB=CA2 is reacted with unsaturated molecules a=b, yielding four‐membered rings [—BMe—CA2—b—a—] [4a—d; a=b = fluorenone, bis(methoxycarbonyl)ethyne (reacting at both of the C=O bonds), phenylisocyanate (reacting at the C=O bond), N‐isopropylacetoneimine], or with triple bond systems RC≡Z, yielding four‐membered rings [—BMe—CA2—Z=CR—] (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). With a series of six molecules with an element‐oxygen double bond, a primary (2+2) cycloaddition is followed by a metathetical splitting of the transient four‐membered rings 4h—m. One of the metathesis products is MeB≡O, which is identified as boroxene (MeBO)3, the other component is an alkene RR′C=CA2 [starting from MeB=CA2 and PhCHO, PhC(Me)O] or an alkene RR′C=CAA′ (starting from MeB=CAA′ and PhCHO, tBuCHO) or the methylidene phosphorane Ph3P=CA2 (starting from MeB=CA2 and Ph3PO) or the dicarbadicobaltatetrahedrane [(CA)2{Co(CO)3}2] {starting from MeB=CA2 and [Co2(CO)8]}. The (2+3) cyclodaddition of MeB=CA2 to the azide X2PN3 (X = NiPr2) as 1, 3‐dipole gives the five‐membered ring [=BMe—CA2—N=N—NX=] (5a) and to RN3 the rings [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; formed from the cycloadducts 5b, c by migration of A); analogously, [=BMe—CA′=N—NA—NA=] (5′d) is formed from MeB=CAA′
doi_str_mv	10.1002/zaac.200300396
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Alcohols and amines HX are added to the BC double bond to give boranes MeB(X)—CHA2 (8a—c; X = OiPr, OtBu, NiPr2); MeB=CAA′ and HNMe2 react in the ratio 1:2, yielding MeB(X)—CHA(SiMe2X) (2d; X = NMe2). From MeB=CA2 and BH3, the five‐membered ring [—CA2—BH—CA2—BMe(Hm)2BMe—] (2e; 2:1) or the six‐membered ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1) are formed, both containing double hydrogen bridges; the product 2f crystallizes in the space group P1¯. The metallocene trihydrides [Cp2MH3] add to the BC double bond under formation of a double hydrogen bridge to give [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Nb, Ta). MeB=CA2 can be chloroborated, ‐stannated, and ‐phosphated with E—Cl to yield the boryldisilylmethanes MeB(Cl)—CA2—E (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). The alkyloboration and ‐alumination with E—R leads to the boryldisilylmethanes MeBR—SiA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) and the bromination to MeB(Br)—CA2Br. (2+2) Cycloadditions are achieved, when MeB=CA2 is reacted with unsaturated molecules a=b, yielding four‐membered rings [—BMe—CA2—b—a—] [4a—d; a=b = fluorenone, bis(methoxycarbonyl)ethyne (reacting at both of the C=O bonds), phenylisocyanate (reacting at the C=O bond), N‐isopropylacetoneimine], or with triple bond systems RC≡Z, yielding four‐membered rings [—BMe—CA2—Z=CR—] (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). With a series of six molecules with an element‐oxygen double bond, a primary (2+2) cycloaddition is followed by a metathetical splitting of the transient four‐membered rings 4h—m. One of the metathesis products is MeB≡O, which is identified as boroxene (MeBO)3, the other component is an alkene RR′C=CA2 [starting from MeB=CA2 and PhCHO, PhC(Me)O] or an alkene RR′C=CAA′ (starting from MeB=CAA′ and PhCHO, tBuCHO) or the methylidene phosphorane Ph3P=CA2 (starting from MeB=CA2 and Ph3PO) or the dicarbadicobaltatetrahedrane [(CA)2{Co(CO)3}2] {starting from MeB=CA2 and [Co2(CO)8]}. The (2+3) cyclodaddition of MeB=CA2 to the azide X2PN3 (X = NiPr2) as 1, 3‐dipole gives the five‐membered ring [=BMe—CA2—N=N—NX=] (5a) and to RN3 the rings [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; formed from the cycloadducts 5b, c by migration of A); analogously, [=BMe—CA′=N—NA—NA=] (5′d) is formed from MeB=CAA′ and AN3. Finally, the nitrone O—NMe=CHPh and MeB=CA2 or MeB=CAA′ give the corresponding (2+3) cycloadducts 5e, f, respectively. All of the products were characterized by their 1H, 11B, and 13C NMR spectra. Reaktionen an der Bor‐Kohlenstoff‐Doppelbindung von Methyl(methyliden)boranen Die Addition von Lewisbasen L an die Methyl(methyliden)borane MeB=CA2 (A = SiMe3) und MeB=CAA′ (A′ = SiMe2Cl) führt zu den Addukten MeB(L)=CA2 (1a, b; L = Trimethylpyridin, PMe3) bzw. MeB(L)=CAA′ (1c, d; L = Di‐ und Trimethylpyridin). Alkohole und Amine HX addieren sich an die BC‐Doppelbindung unter Bildung von MeB(X)—CHA2 (2a‐c; X = OiPr, OtBu, NiPr2); MeB=CAA′ und HNMe2 reagieren im Verhältnis 1:2 zu MeB(X)—CHA(SiMe2X) (2d; X = NMe2). Aus MeB=CA2 und BH3 bilden sich der fünfgliedrige Ring [—CA2—BH—CA2—BMe(Hμ)2BMe—] (2e; 1:2) oder der sechsgliedrige Ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1), die beide Wasserstoff‐Doppelbrücken enthalten; der Sechsring 2f kristallisiert in der Raumgruppe P1¯. Die Metallocentrihydride [Cp2MH3] addieren sich an die BC‐Doppelbindung unter Bildung einer Wasserstoff‐Doppelbrücke zu [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Hf, Ta). MeB=CA2 kann mit E—Cl zu Boryldisilylmethanen MeB(Cl)—CA2—E chloroboriert, ‐stanniert und ‐phosphaniert werden (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). Die Alkyloborierung und ‐aluminierung mit E—R ergibt die Boryldisilylmethane MeB(R)—CA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) und die Bromierung MeB(Br)—CA2Br (2p). (2+2)Cycloadditionen beobachtet man, wenn MeB=CA2 mit ungesättigten Molekülen a=b zu Vierringen [—BMe—CA2—b—a—] [4a—d; a=b = Fluorenon, Bis(methoxycarbonyl)ethin (an beide C=O‐Bindungen wird addiert), Phenylisocyanat (an die C=O‐Bindung wird addiert), N‐Isopropylacetonimin] oder mit Dreifachbindungssystemen RC≡Z zu Vierringen [—BMe—CA2—Z=CR—] reagiert (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). Mit sechs Verbindungen mit einer Element‐Sauerstoff‐Doppelbindung folgt auf eine primäre (2+2)‐Cycloaddition eine metathetische Ringspaltung. Eines der Metatheseprodukte ist MeB≡O, das als Boroxin (MeBO)3 nachgewiesen wird, das andere ist ein Alken RR′C=CA2 (aus MeB=CA2 und PhCHO, PhMeCO) oder ein Alken RR′C=CAA′ (aus MeB=CAA′ und PhCHO, tBuCHO) oder das Methylidenphosphoran Ph3P=CA2 (aus MeB=CA2 und Ph3PO) oder das Dicarbadicobaltatetrahedran [(CA)2{Co(CO)3}2] {aus MeB=CA2 und [Co2(CO)8]}. Die (2+3)‐Cycloaddition von MeB=CA2 an das Azid X2PN3 (X = NiPr2) als 1, 3‐Dipol ergibt den Fünfring [=BMe—CA2—N=N—NX=] (5a) und an das Azid AN3 die Fünfringe [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; hervorgegangen aus den Cycloaddukten 5b, c durch Wanderung von A); entsprechend bildet sich [=BMe—CA′=N—NA—NA=] aus MeB=CAA′ und AN3. Schließlich entstehen aus MeB=CA2 bzw. MeBB=CAA′ und dem Nitron O—NMe=CHPh die (2+3)‐Cycloaddukte 5e, f. Alle Produkte wurden mit Hilfe ihrer 1H‐, 11B‐ und 13C‐NMR‐Spektren charakterisiert.</description><identifier>ISSN: 0044-2313</identifier><identifier>EISSN: 1521-3749</identifier><identifier>DOI: 10.1002/zaac.200300396</identifier><language>eng</language><publisher>Weinheim: WILEY-VCH Verlag</publisher><subject>(2+2) Cycloaddition ; 2+3) Cycloaddition ; Boron carbon double bond ; Metathesis</subject><ispartof>Zeitschrift für anorganische und allgemeine Chemie (1950), 2004-04, Vol.630 (4), p.508-518</ispartof><rights>Copyright © 2004 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c4316-738b25dc8e96e940a17aef12349749bcf85cb16ccaae02275849e1e68ee1e3be3</citedby><cites>FETCH-LOGICAL-c4316-738b25dc8e96e940a17aef12349749bcf85cb16ccaae02275849e1e68ee1e3be3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://onlinelibrary.wiley.com/doi/full/10.1002%2Fzaac.200300396$$EHTML$$P50$$Gwiley$$H</linktohtml><link.rule.ids>315,781,785,1418,27929,27930,45580</link.rule.ids></links><search><creatorcontrib>Paetzold, Peter</creatorcontrib><creatorcontrib>Englert, Ulli</creatorcontrib><creatorcontrib>Finger, Rudolf</creatorcontrib><creatorcontrib>Schmitz, Thomas</creatorcontrib><creatorcontrib>Tapper, Alexander</creatorcontrib><creatorcontrib>Ziembinski, Ralf</creatorcontrib><title>Reactions at the Boron-Carbon Double Bond of Methyl(methylidene)boranes</title><title>Zeitschrift für anorganische und allgemeine Chemie (1950)</title><addtitle>Z. anorg. allg. Chem</addtitle><description>The addition of Lewis bases L to the methyl(methylidene)boranes MeB=CA2(A = SiMe3) and MeB=CAA′ (A′ = SiMe2Cl) gives the adducts MeB(L)=CA2 (1a, b; L = trimethylpyridine, PMe3) and MeB(L)=CAA′ (1c, d; L = di‐ and trimethylpyridine), respectively. Alcohols and amines HX are added to the BC double bond to give boranes MeB(X)—CHA2 (8a—c; X = OiPr, OtBu, NiPr2); MeB=CAA′ and HNMe2 react in the ratio 1:2, yielding MeB(X)—CHA(SiMe2X) (2d; X = NMe2). From MeB=CA2 and BH3, the five‐membered ring [—CA2—BH—CA2—BMe(Hm)2BMe—] (2e; 2:1) or the six‐membered ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1) are formed, both containing double hydrogen bridges; the product 2f crystallizes in the space group P1¯. The metallocene trihydrides [Cp2MH3] add to the BC double bond under formation of a double hydrogen bridge to give [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Nb, Ta). MeB=CA2 can be chloroborated, ‐stannated, and ‐phosphated with E—Cl to yield the boryldisilylmethanes MeB(Cl)—CA2—E (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). The alkyloboration and ‐alumination with E—R leads to the boryldisilylmethanes MeBR—SiA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) and the bromination to MeB(Br)—CA2Br. (2+2) Cycloadditions are achieved, when MeB=CA2 is reacted with unsaturated molecules a=b, yielding four‐membered rings [—BMe—CA2—b—a—] [4a—d; a=b = fluorenone, bis(methoxycarbonyl)ethyne (reacting at both of the C=O bonds), phenylisocyanate (reacting at the C=O bond), N‐isopropylacetoneimine], or with triple bond systems RC≡Z, yielding four‐membered rings [—BMe—CA2—Z=CR—] (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). With a series of six molecules with an element‐oxygen double bond, a primary (2+2) cycloaddition is followed by a metathetical splitting of the transient four‐membered rings 4h—m. One of the metathesis products is MeB≡O, which is identified as boroxene (MeBO)3, the other component is an alkene RR′C=CA2 [starting from MeB=CA2 and PhCHO, PhC(Me)O] or an alkene RR′C=CAA′ (starting from MeB=CAA′ and PhCHO, tBuCHO) or the methylidene phosphorane Ph3P=CA2 (starting from MeB=CA2 and Ph3PO) or the dicarbadicobaltatetrahedrane [(CA)2{Co(CO)3}2] {starting from MeB=CA2 and [Co2(CO)8]}. The (2+3) cyclodaddition of MeB=CA2 to the azide X2PN3 (X = NiPr2) as 1, 3‐dipole gives the five‐membered ring [=BMe—CA2—N=N—NX=] (5a) and to RN3 the rings [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; formed from the cycloadducts 5b, c by migration of A); analogously, [=BMe—CA′=N—NA—NA=] (5′d) is formed from MeB=CAA′ and AN3. Finally, the nitrone O—NMe=CHPh and MeB=CA2 or MeB=CAA′ give the corresponding (2+3) cycloadducts 5e, f, respectively. All of the products were characterized by their 1H, 11B, and 13C NMR spectra. Reaktionen an der Bor‐Kohlenstoff‐Doppelbindung von Methyl(methyliden)boranen Die Addition von Lewisbasen L an die Methyl(methyliden)borane MeB=CA2 (A = SiMe3) und MeB=CAA′ (A′ = SiMe2Cl) führt zu den Addukten MeB(L)=CA2 (1a, b; L = Trimethylpyridin, PMe3) bzw. MeB(L)=CAA′ (1c, d; L = Di‐ und Trimethylpyridin). Alkohole und Amine HX addieren sich an die BC‐Doppelbindung unter Bildung von MeB(X)—CHA2 (2a‐c; X = OiPr, OtBu, NiPr2); MeB=CAA′ und HNMe2 reagieren im Verhältnis 1:2 zu MeB(X)—CHA(SiMe2X) (2d; X = NMe2). Aus MeB=CA2 und BH3 bilden sich der fünfgliedrige Ring [—CA2—BH—CA2—BMe(Hμ)2BMe—] (2e; 1:2) oder der sechsgliedrige Ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1), die beide Wasserstoff‐Doppelbrücken enthalten; der Sechsring 2f kristallisiert in der Raumgruppe P1¯. Die Metallocentrihydride [Cp2MH3] addieren sich an die BC‐Doppelbindung unter Bildung einer Wasserstoff‐Doppelbrücke zu [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Hf, Ta). MeB=CA2 kann mit E—Cl zu Boryldisilylmethanen MeB(Cl)—CA2—E chloroboriert, ‐stanniert und ‐phosphaniert werden (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). Die Alkyloborierung und ‐aluminierung mit E—R ergibt die Boryldisilylmethane MeB(R)—CA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) und die Bromierung MeB(Br)—CA2Br (2p). (2+2)Cycloadditionen beobachtet man, wenn MeB=CA2 mit ungesättigten Molekülen a=b zu Vierringen [—BMe—CA2—b—a—] [4a—d; a=b = Fluorenon, Bis(methoxycarbonyl)ethin (an beide C=O‐Bindungen wird addiert), Phenylisocyanat (an die C=O‐Bindung wird addiert), N‐Isopropylacetonimin] oder mit Dreifachbindungssystemen RC≡Z zu Vierringen [—BMe—CA2—Z=CR—] reagiert (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). Mit sechs Verbindungen mit einer Element‐Sauerstoff‐Doppelbindung folgt auf eine primäre (2+2)‐Cycloaddition eine metathetische Ringspaltung. Eines der Metatheseprodukte ist MeB≡O, das als Boroxin (MeBO)3 nachgewiesen wird, das andere ist ein Alken RR′C=CA2 (aus MeB=CA2 und PhCHO, PhMeCO) oder ein Alken RR′C=CAA′ (aus MeB=CAA′ und PhCHO, tBuCHO) oder das Methylidenphosphoran Ph3P=CA2 (aus MeB=CA2 und Ph3PO) oder das Dicarbadicobaltatetrahedran [(CA)2{Co(CO)3}2] {aus MeB=CA2 und [Co2(CO)8]}. Die (2+3)‐Cycloaddition von MeB=CA2 an das Azid X2PN3 (X = NiPr2) als 1, 3‐Dipol ergibt den Fünfring [=BMe—CA2—N=N—NX=] (5a) und an das Azid AN3 die Fünfringe [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; hervorgegangen aus den Cycloaddukten 5b, c durch Wanderung von A); entsprechend bildet sich [=BMe—CA′=N—NA—NA=] aus MeB=CAA′ und AN3. Schließlich entstehen aus MeB=CA2 bzw. MeBB=CAA′ und dem Nitron O—NMe=CHPh die (2+3)‐Cycloaddukte 5e, f. Alle Produkte wurden mit Hilfe ihrer 1H‐, 11B‐ und 13C‐NMR‐Spektren charakterisiert.</description><subject>(2+2) Cycloaddition</subject><subject>2+3) Cycloaddition</subject><subject>Boron carbon double bond</subject><subject>Metathesis</subject><issn>0044-2313</issn><issn>1521-3749</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2004</creationdate><recordtype>article</recordtype><recordid>eNqFkE1Lw0AQhhdRsFavnnPUQ-p-JrvHGmsVooIohV6W3e2ERtOs7Ea0_npTK8WbMMwLwzzD8CB0SvCIYEwvvoxxI4ox60tle2hABCUpy7naRwOMOU8pI-wQHcX4gjEmWIgBmj6CcV3t25iYLumWkFz64Nu0MMH6Nrny77bZzNpF4qvkDrrlujlb_US9gBbOrQ-mhXiMDirTRDj5zSF6vp48FTdp-TC9LcZl6jgjWZozaalYOAkqA8WxIbmBilDGVf-ndZUUzpLMOWMAU5oLyRUQyCT0nVlgQzTa3nXBxxig0m-hXpmw1gTrjQa90aB3GnpAbYGPuoH1P9t6Ph4Xf9l0y9axg88da8KrznKWCz27n2oyK8t5KYWW7BtD-HCa</recordid><startdate>200404</startdate><enddate>200404</enddate><creator>Paetzold, Peter</creator><creator>Englert, Ulli</creator><creator>Finger, Rudolf</creator><creator>Schmitz, Thomas</creator><creator>Tapper, Alexander</creator><creator>Ziembinski, Ralf</creator><general>WILEY-VCH Verlag</general><general>WILEY‐VCH Verlag</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>200404</creationdate><title>Reactions at the Boron-Carbon Double Bond of Methyl(methylidene)boranes</title><author>Paetzold, Peter ; Englert, Ulli ; Finger, Rudolf ; Schmitz, Thomas ; Tapper, Alexander ; Ziembinski, Ralf</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4316-738b25dc8e96e940a17aef12349749bcf85cb16ccaae02275849e1e68ee1e3be3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2004</creationdate><topic>(2+2) Cycloaddition</topic><topic>2+3) Cycloaddition</topic><topic>Boron carbon double bond</topic><topic>Metathesis</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Paetzold, Peter</creatorcontrib><creatorcontrib>Englert, Ulli</creatorcontrib><creatorcontrib>Finger, Rudolf</creatorcontrib><creatorcontrib>Schmitz, Thomas</creatorcontrib><creatorcontrib>Tapper, Alexander</creatorcontrib><creatorcontrib>Ziembinski, Ralf</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><jtitle>Zeitschrift für anorganische und allgemeine Chemie (1950)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Paetzold, Peter</au><au>Englert, Ulli</au><au>Finger, Rudolf</au><au>Schmitz, Thomas</au><au>Tapper, Alexander</au><au>Ziembinski, Ralf</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Reactions at the Boron-Carbon Double Bond of Methyl(methylidene)boranes</atitle><jtitle>Zeitschrift für anorganische und allgemeine Chemie (1950)</jtitle><addtitle>Z. anorg. allg. Chem</addtitle><date>2004-04</date><risdate>2004</risdate><volume>630</volume><issue>4</issue><spage>508</spage><epage>518</epage><pages>508-518</pages><issn>0044-2313</issn><eissn>1521-3749</eissn><abstract>The addition of Lewis bases L to the methyl(methylidene)boranes MeB=CA2(A = SiMe3) and MeB=CAA′ (A′ = SiMe2Cl) gives the adducts MeB(L)=CA2 (1a, b; L = trimethylpyridine, PMe3) and MeB(L)=CAA′ (1c, d; L = di‐ and trimethylpyridine), respectively. Alcohols and amines HX are added to the BC double bond to give boranes MeB(X)—CHA2 (8a—c; X = OiPr, OtBu, NiPr2); MeB=CAA′ and HNMe2 react in the ratio 1:2, yielding MeB(X)—CHA(SiMe2X) (2d; X = NMe2). From MeB=CA2 and BH3, the five‐membered ring [—CA2—BH—CA2—BMe(Hm)2BMe—] (2e; 2:1) or the six‐membered ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1) are formed, both containing double hydrogen bridges; the product 2f crystallizes in the space group P1¯. The metallocene trihydrides [Cp2MH3] add to the BC double bond under formation of a double hydrogen bridge to give [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Nb, Ta). MeB=CA2 can be chloroborated, ‐stannated, and ‐phosphated with E—Cl to yield the boryldisilylmethanes MeB(Cl)—CA2—E (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). The alkyloboration and ‐alumination with E—R leads to the boryldisilylmethanes MeBR—SiA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) and the bromination to MeB(Br)—CA2Br. (2+2) Cycloadditions are achieved, when MeB=CA2 is reacted with unsaturated molecules a=b, yielding four‐membered rings [—BMe—CA2—b—a—] [4a—d; a=b = fluorenone, bis(methoxycarbonyl)ethyne (reacting at both of the C=O bonds), phenylisocyanate (reacting at the C=O bond), N‐isopropylacetoneimine], or with triple bond systems RC≡Z, yielding four‐membered rings [—BMe—CA2—Z=CR—] (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). With a series of six molecules with an element‐oxygen double bond, a primary (2+2) cycloaddition is followed by a metathetical splitting of the transient four‐membered rings 4h—m. One of the metathesis products is MeB≡O, which is identified as boroxene (MeBO)3, the other component is an alkene RR′C=CA2 [starting from MeB=CA2 and PhCHO, PhC(Me)O] or an alkene RR′C=CAA′ (starting from MeB=CAA′ and PhCHO, tBuCHO) or the methylidene phosphorane Ph3P=CA2 (starting from MeB=CA2 and Ph3PO) or the dicarbadicobaltatetrahedrane [(CA)2{Co(CO)3}2] {starting from MeB=CA2 and [Co2(CO)8]}. The (2+3) cyclodaddition of MeB=CA2 to the azide X2PN3 (X = NiPr2) as 1, 3‐dipole gives the five‐membered ring [=BMe—CA2—N=N—NX=] (5a) and to RN3 the rings [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; formed from the cycloadducts 5b, c by migration of A); analogously, [=BMe—CA′=N—NA—NA=] (5′d) is formed from MeB=CAA′ and AN3. Finally, the nitrone O—NMe=CHPh and MeB=CA2 or MeB=CAA′ give the corresponding (2+3) cycloadducts 5e, f, respectively. All of the products were characterized by their 1H, 11B, and 13C NMR spectra. Reaktionen an der Bor‐Kohlenstoff‐Doppelbindung von Methyl(methyliden)boranen Die Addition von Lewisbasen L an die Methyl(methyliden)borane MeB=CA2 (A = SiMe3) und MeB=CAA′ (A′ = SiMe2Cl) führt zu den Addukten MeB(L)=CA2 (1a, b; L = Trimethylpyridin, PMe3) bzw. MeB(L)=CAA′ (1c, d; L = Di‐ und Trimethylpyridin). Alkohole und Amine HX addieren sich an die BC‐Doppelbindung unter Bildung von MeB(X)—CHA2 (2a‐c; X = OiPr, OtBu, NiPr2); MeB=CAA′ und HNMe2 reagieren im Verhältnis 1:2 zu MeB(X)—CHA(SiMe2X) (2d; X = NMe2). Aus MeB=CA2 und BH3 bilden sich der fünfgliedrige Ring [—CA2—BH—CA2—BMe(Hμ)2BMe—] (2e; 1:2) oder der sechsgliedrige Ring [—CA2—BH(Hμ)2BMe—CA2—BH(Hμ)2BMe—] (2f; 1:1), die beide Wasserstoff‐Doppelbrücken enthalten; der Sechsring 2f kristallisiert in der Raumgruppe P1¯. Die Metallocentrihydride [Cp2MH3] addieren sich an die BC‐Doppelbindung unter Bildung einer Wasserstoff‐Doppelbrücke zu [Me(A2CH)B(Hμ)2MCp2] (2g, h; M = Hf, Ta). MeB=CA2 kann mit E—Cl zu Boryldisilylmethanen MeB(Cl)—CA2—E chloroboriert, ‐stanniert und ‐phosphaniert werden (2i—l; E = EtClB, tBuClB, Me2ClSn, Cl2P). Die Alkyloborierung und ‐aluminierung mit E—R ergibt die Boryldisilylmethane MeB(R)—CA2—E (2m—o; E—R = Me2B—Me, Et2B—Et, Cl2Al—Et) und die Bromierung MeB(Br)—CA2Br (2p). (2+2)Cycloadditionen beobachtet man, wenn MeB=CA2 mit ungesättigten Molekülen a=b zu Vierringen [—BMe—CA2—b—a—] [4a—d; a=b = Fluorenon, Bis(methoxycarbonyl)ethin (an beide C=O‐Bindungen wird addiert), Phenylisocyanat (an die C=O‐Bindung wird addiert), N‐Isopropylacetonimin] oder mit Dreifachbindungssystemen RC≡Z zu Vierringen [—BMe—CA2—Z=CR—] reagiert (4e—g; RC≡Z = PhC≡CPh, AC≡CCl, tBuC≡P). Mit sechs Verbindungen mit einer Element‐Sauerstoff‐Doppelbindung folgt auf eine primäre (2+2)‐Cycloaddition eine metathetische Ringspaltung. Eines der Metatheseprodukte ist MeB≡O, das als Boroxin (MeBO)3 nachgewiesen wird, das andere ist ein Alken RR′C=CA2 (aus MeB=CA2 und PhCHO, PhMeCO) oder ein Alken RR′C=CAA′ (aus MeB=CAA′ und PhCHO, tBuCHO) oder das Methylidenphosphoran Ph3P=CA2 (aus MeB=CA2 und Ph3PO) oder das Dicarbadicobaltatetrahedran [(CA)2{Co(CO)3}2] {aus MeB=CA2 und [Co2(CO)8]}. Die (2+3)‐Cycloaddition von MeB=CA2 an das Azid X2PN3 (X = NiPr2) als 1, 3‐Dipol ergibt den Fünfring [=BMe—CA2—N=N—NX=] (5a) und an das Azid AN3 die Fünfringe [=BMe—CA=N—NA—NR=] (5′b, c; R = iBu, A; hervorgegangen aus den Cycloaddukten 5b, c durch Wanderung von A); entsprechend bildet sich [=BMe—CA′=N—NA—NA=] aus MeB=CAA′ und AN3. Schließlich entstehen aus MeB=CA2 bzw. MeBB=CAA′ und dem Nitron O—NMe=CHPh die (2+3)‐Cycloaddukte 5e, f. Alle Produkte wurden mit Hilfe ihrer 1H‐, 11B‐ und 13C‐NMR‐Spektren charakterisiert.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/zaac.200300396</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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title	Reactions at the Boron-Carbon Double Bond of Methyl(methylidene)boranes
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