TY - JOUR
T1 - Synthesis and molecular structures of tris(thio- and selenophenyl)stannyl complexes of cyclopentadienylcarbonylnitrosylmanganese and their reaction products with tungsten carbony
AU - Pasynskii, A. A.
AU - Blokhin, A. I.
AU - Torubaev, Yu V.
AU - Dobrokhotova, Zh V.
N1 - Funding Information:
ACKNOWLEDGMENTS This work was supported by the Russian Founda tion for Basic Research (project no. 09 03 00961), the Division of Chemistry and Materials Sciences of the Russian Academy of Sciences (grant OKh 1.3), and the Presidium of the Russian Academy of Sciences (grant 7P21).
PY - 2011/12/1
Y1 - 2011/12/1
N2 - Reactions of CpMn(CO)(NO)SnCl 3 (I) with sodium benzenethiolate and sodium benzenesele-nolate gave orange crystals of the complexes CpMn(CO)(NO)Sn(EPh) 3, where E = S (II) or Se (III). Treatment of complex II with photochemically generated W(CO) 5(THF) yielded the adduct CpMn(CO)(NO)Sn(SPh) 3 • W(CO) 5 (IV). A similar treatment of complex III resulted in the formation of the ditungsten complex W 2(CO) 4(SePh) 6 (V) with transfer of all chalcogenate groups from tin to tungsten. In reactions of complexes II and III with a Pt 0 complex with phosphine and acetylene, (PPh 3) 2Pt(Ph 2C 2), the chalcogenate groups are transferred from tin. Only the known Pt(II) complexes (PPh 3) 2Pt(EPh) 2), where E= S (VI) or Se (VII). Molecular structures IV and V were characterized by X-ray diffraction. It has been found that the Mn-Sn bond in complex IV (2.5479(9) Å) is nearly the same length as that found earlier for complex II (2.5328(17) Å) and is substantially shorter than the sum of the covalent radii of Mn and Sn (2.78 Å). The Sn-S bond is noticeably lengthened (2.5217(11) Å) only for the S atom bound to tungsten (W-S, 2.5696(12) Å), while the other Sn-S bonds (2.4413(12) and 2.4291(12) Å) are virtually the same as in complex II (on average, 2.441 Å). Complex V contains the direct W-W bond (2.8153(16) Å) supplemented with four benzeneselenolate bridges in which the W-Se bonds (on average, 2.642(2) Å) are longer than the two terminal W-SePh bonds (2.571(2) Å). All the W-Se bonds are much shorter than the sum of the covalent radii of W and Se (2.82 Å).
AB - Reactions of CpMn(CO)(NO)SnCl 3 (I) with sodium benzenethiolate and sodium benzenesele-nolate gave orange crystals of the complexes CpMn(CO)(NO)Sn(EPh) 3, where E = S (II) or Se (III). Treatment of complex II with photochemically generated W(CO) 5(THF) yielded the adduct CpMn(CO)(NO)Sn(SPh) 3 • W(CO) 5 (IV). A similar treatment of complex III resulted in the formation of the ditungsten complex W 2(CO) 4(SePh) 6 (V) with transfer of all chalcogenate groups from tin to tungsten. In reactions of complexes II and III with a Pt 0 complex with phosphine and acetylene, (PPh 3) 2Pt(Ph 2C 2), the chalcogenate groups are transferred from tin. Only the known Pt(II) complexes (PPh 3) 2Pt(EPh) 2), where E= S (VI) or Se (VII). Molecular structures IV and V were characterized by X-ray diffraction. It has been found that the Mn-Sn bond in complex IV (2.5479(9) Å) is nearly the same length as that found earlier for complex II (2.5328(17) Å) and is substantially shorter than the sum of the covalent radii of Mn and Sn (2.78 Å). The Sn-S bond is noticeably lengthened (2.5217(11) Å) only for the S atom bound to tungsten (W-S, 2.5696(12) Å), while the other Sn-S bonds (2.4413(12) and 2.4291(12) Å) are virtually the same as in complex II (on average, 2.441 Å). Complex V contains the direct W-W bond (2.8153(16) Å) supplemented with four benzeneselenolate bridges in which the W-Se bonds (on average, 2.642(2) Å) are longer than the two terminal W-SePh bonds (2.571(2) Å). All the W-Se bonds are much shorter than the sum of the covalent radii of W and Se (2.82 Å).
UR - http://www.scopus.com/inward/record.url?scp=84555196885&partnerID=8YFLogxK
U2 - 10.1134/S1070328411110108
DO - 10.1134/S1070328411110108
M3 - Article
AN - SCOPUS:84555196885
SN - 1070-3284
VL - 37
SP - 879
EP - 886
JO - Russian Journal of Coordination Chemistry/Koordinatsionnaya Khimiya
JF - Russian Journal of Coordination Chemistry/Koordinatsionnaya Khimiya
IS - 12
ER -