7065-21-6Relevant articles and documents
Synthesis and Crystal and Molecular Structure of Tetraphenyldibismuthine, Bi2Ph4, the First Crystallographically Characterized Tetraorganyl Derivative of Bismuth(II)
Calderazzo, Fausto,Morvillo, Antonio,Pelizzi, Giancarlo,Poli, Rinaldo
, p. 507 - 508 (1983)
Tetraphenyldibismuthine, Bi2Ph4, was prepared by reducing BiPh2Cl with sodium in liquid ammonia and characterized by conventional methods, including X-ray diffractometry.
Comprehensive Study on Reactions of Group 13 Diyls with Tetraorganodipentelanes
Ganesamoorthy, Chelladurai,Krüger, Julia,Gl?ckler, Eduard,Helling, Christoph,John, Lukas,Frank, Walter,W?lper, Christoph,Schulz, Stephan
, p. 9495 - 9503 (2018/08/17)
L1Ga {L1 = HC[C(Me)N(2,6-iPr2C6H3)]2} reversibly reacts with E2Ph4 (E = Sb, Bi) in a temperature-dependent equilibrium reaction with insertion into the E-E bond and formation of L1Ga(EPh2)2 (E = Sb 1, Bi 2). Analogous findings were observed in the reactions of L2Ga {L2 = (C6H11)2NC[N(2,6-iPr2C6H3)]2} with E2R4 (R = Ph, Et), yielding L2Ga(EPh2)2 (E = Sb 3, Bi 4) and L2Ga(EEt2)2 (E = Sb 5, Bi 6). 1-3 and 5 were isolated by fractional crystallization at low temperature, whereas 4 and 6 could not be isolated in their pure form even at low temperature. In contrast, reactions of [Cp?Al]4 (Cp? = C5Me5) with Sb2R4 (R = Ph, Et) and Bi2Et4 did not proceed with insertion into the E-E bonds but with formation of (Cp?Al)3E2 (E = Sb, 7; Bi, 8), whereas the reaction with Bi2Ph4 yielded metallic bismuth. 8 was also formed in the reaction of [Cp?Al]4 and BiEt3 at ambient temperature, whereas the analogous reaction of [Cp?Al]4 with SbEt3 did not yield 7 even under drastic reaction conditions (120 °C, 3 days). In contrast, Cp?Ga and Sb2R4 (R = Ph, Et) were found to react only at elevated temperature (120 °C) with formation of antimony metal.
REACTIVITY OF MOLECULES CONTAINING ELEMENT-ELEMENT BONDS. PART III. REDUCTION OF HALO-ORGANOMETALLICS OF ANTIMONY(III) AND BISMUTH(III); CRYSTAL AND MOLECULAR STRUCTURE OF CoCp2
Calderazzo, Fausto,Marchetti, Fabio,Ungari, Fausto,Wieber, Markus
, p. 93 - 100 (2007/10/02)
Tetraphenyldibismuthine has been prepared by reducing BiPh2I with bis (cyclopentadienyl)-cobalt(II).CoCp2, the former being produced in situ in THF solution from BiPh3 and BiI3 (2:1 molar ratio) or from BiPh3 and I2; also, bis(pentamethylcyclopentadienyl)cobalt(II), CoCp2, reduces BiPh2Cl to Bi2Ph4 in THF solution.The bismuth(III) bromides Bi(p-tolyl)2Br or BiMe2Br have been reduced by CoCp2 to the corresponding dibismuthines, Bi2(p-tolyl)4 or Bi2Me4.Reduction by CoCp2 of the chloro derivatives of bismuth(III) and antimony(III), EPh2Cl produces E2Ph4 and the ionic CoCp2 complexes as by-products.The crystal and molecular structure of the antimony derivative CoCp2 was solved by X-ray diffraction methods.Crystal data: monoclinic, space group P21, a = 8.856(3), b = 16.245(5), c = 7.770(3) Angstroem, β = 109.67(5) deg, Z = 2, R = 0.0396.Similar to Bi2Ph4, Sb2Ph4 undergoes reactions across the element-element bond with p-benzoquinone and diazomethane to the corresponding insertion products (Ph2Sb)2O2C6H4 and (Ph2Sb)2CH2, respectively.