Hydridotetrylene [Ar*EH] (E = Ge, Sn, Pb) coordination at tantalum, tungsten, and zirconium. Issue 14 (23rd March 2022)
- Record Type:
- Journal Article
- Title:
- Hydridotetrylene [Ar*EH] (E = Ge, Sn, Pb) coordination at tantalum, tungsten, and zirconium. Issue 14 (23rd March 2022)
- Main Title:
- Hydridotetrylene [Ar*EH] (E = Ge, Sn, Pb) coordination at tantalum, tungsten, and zirconium
- Authors:
- Widemann, Max
Jeggle, Sebastian
Auer, Maximilian
Eichele, Klaus
Schubert, Hartmut
Sindlinger, Christian P.
Wesemann, Lars - Abstract:
- Abstract : Low valent cations of tin and lead were used to form hydridotetrylene coordination compounds. The mobility of the hydrogen substituent was investigated in deprotonation equilibria as well as in 1, 2-H-shift reactions. Abstract : In a reaction of tantalocene trihydride with the low valent aryl tin cation [Ar*Sn(C6 H6 )][Al(OC{CF3 }3 )4 ] (1a ) the hydridostannylene complex [Cp2 TaH2 –Sn(H)Ar*][Al(OC{CF3 }3 )4 ] (2 ) was synthesized. Hydride bridged adducts [Cp2 WH2 EAr*][Al(OC{CF3 }3 )4 ] (E = Sn 3a, Pb 3b ) were isolated as products of the reaction between Cp2 WH2 and cations [Ar*E(C6 H6 )][Al(OC{CF3 }3 )4 ] (E = Sn 1a, Pb 1b ). The tin adduct 3a exhibits a proton migration to give the hydridostannylene complex [Cp2 W(H)Sn(H)Ar*][Al(OC{CF3 }3 )4 ] 4a . The cationic complex 4a is deprotonated at the tin atom in reaction with base Me NHC at 80 °C to give a hydrido-tungstenostannylene [Cp2 W(H)SnAr*] 5a . Reprotonation of metallostannylene 5a with acid [H(Et2 O)2 ][BAr F ] provides an alternative route to hydridotetrylene coordination. Complex 4a adds hydride to give the dihydrostannyl complex [Cp2 W(H)–SnH2 Ar*] (7 ). With styrene 4a shows formation of a hydrostannylation product [Cp2 W(H)Sn(CH2 CH2 Ph)Ar*][Al(OC{CF3 }3 )4 ] (8 ). The lead adduct 3b was deprotonated with Me NHC to give plumbylene 5b [Cp2 W(H)PbAr*]. Protonation of 5b with [H(Et2 O)2 ][Al(OC{CF3 }3 )4 ] at −40 °C followed by low temperature NMR spectroscopy indicates a hydridoplumbyleneAbstract : Low valent cations of tin and lead were used to form hydridotetrylene coordination compounds. The mobility of the hydrogen substituent was investigated in deprotonation equilibria as well as in 1, 2-H-shift reactions. Abstract : In a reaction of tantalocene trihydride with the low valent aryl tin cation [Ar*Sn(C6 H6 )][Al(OC{CF3 }3 )4 ] (1a ) the hydridostannylene complex [Cp2 TaH2 –Sn(H)Ar*][Al(OC{CF3 }3 )4 ] (2 ) was synthesized. Hydride bridged adducts [Cp2 WH2 EAr*][Al(OC{CF3 }3 )4 ] (E = Sn 3a, Pb 3b ) were isolated as products of the reaction between Cp2 WH2 and cations [Ar*E(C6 H6 )][Al(OC{CF3 }3 )4 ] (E = Sn 1a, Pb 1b ). The tin adduct 3a exhibits a proton migration to give the hydridostannylene complex [Cp2 W(H)Sn(H)Ar*][Al(OC{CF3 }3 )4 ] 4a . The cationic complex 4a is deprotonated at the tin atom in reaction with base Me NHC at 80 °C to give a hydrido-tungstenostannylene [Cp2 W(H)SnAr*] 5a . Reprotonation of metallostannylene 5a with acid [H(Et2 O)2 ][BAr F ] provides an alternative route to hydridotetrylene coordination. Complex 4a adds hydride to give the dihydrostannyl complex [Cp2 W(H)–SnH2 Ar*] (7 ). With styrene 4a shows formation of a hydrostannylation product [Cp2 W(H)Sn(CH2 CH2 Ph)Ar*][Al(OC{CF3 }3 )4 ] (8 ). The lead adduct 3b was deprotonated with Me NHC to give plumbylene 5b [Cp2 W(H)PbAr*]. Protonation of 5b with [H(Et2 O)2 ][Al(OC{CF3 }3 )4 ] at −40 °C followed by low temperature NMR spectroscopy indicates a hydridoplumbylene intermediate [Cp2 W(H)Pb(H)Ar*] + (4b ). Hydrido-tungstenotetrylenes of elements Ge (5c ), Sn (5a ) and Pb (5b ) were also synthesized reacting the salt [Cp2 W(H)Li]4 with organotetrylene halides. The metallogermylene [Cp2 W(H)GeAr*] (5c ) shows an isomerization via 1, 2-H-migration to give the hydridogermylene [Cp2 WGe(H)Ar*] (9 ), which is accelerated by addition of AIBN. 9 is at rt photochemically transferred back to 5c under light of a mercury vapor lamp. Zirconocene dihydride [Cp2 ZrH2 ]2 reacts with tin cation 1a to give the trinuclear hydridostannylene adduct 10 [({Cp2 Zr}2 {μ-H})(μ-H)2 μ-Sn(H)Ar*][Al(OC{CF3 }3 )4 ]. Deprotonation of 10 was carried out using benzyl potassium to give neutral [({Cp2 Zr}2 {μ-H})(μ-H)μ-Sn(H)Ar*] (11 ). 11 was also obtained from the reaction of low valent tin hydride [Ar*SnH]2 with two equivalents of [Cp2 ZrH2 ]2 . The trihydride Ar*SnH3 reacts with half of an equivalent of [Cp2 ZrH2 ]2 under evolution of hydrogen and formation of a dihydrostannyl complex 13 [Cp2 Zr(μ-H)SnH2 Ar*]2 and with further equivalents of Ar*SnH3 to give bis(hydridostannylene) complex [Cp2 Zr{Sn(H)Ar*}2 ]. … (more)
- Is Part Of:
- Chemical science. Volume 13:Issue 14(2022)
- Journal:
- Chemical science
- Issue:
- Volume 13:Issue 14(2022)
- Issue Display:
- Volume 13, Issue 14 (2022)
- Year:
- 2022
- Volume:
- 13
- Issue:
- 14
- Issue Sort Value:
- 2022-0013-0014-0000
- Page Start:
- 3999
- Page End:
- 4009
- Publication Date:
- 2022-03-23
- Subjects:
- Chemistry -- Periodicals
540.5 - Journal URLs:
- http://pubs.rsc.org/en/Journals/JournalIssues/SC ↗
http://www.rsc.org/ ↗ - DOI:
- 10.1039/d2sc00297c ↗
- Languages:
- English
- ISSNs:
- 2041-6520
- Deposit Type:
- Legaldeposit
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 3151.490000
British Library DSC - BLDSS-3PM
British Library STI - ELD Digital store - Ingest File:
- 21347.xml