Thermal Reactions of Titanium Thiolates:  Terminal Titanium Sulfides in CS Bond Cleavage Reactions

Abstract: The thermolysis of monocyclopentadienyltitanium thiolate complexes leads to ligand redistributions and C-S bond cleavage reactions. Kinetic study of the C-S bond thermolysis reaction of CpTi(OC 6 H 3 -2,6-i-Pr 2 )(SBn) 2 (2) to the sulfide-bridged dimer [CpTi(OC 6 H 3 -2,6i-Pr 2 )(µ-S)] 2 (1) is shown to be first order in 2, consistent with an intramolecular process proceeding via a terminal sulfide intermediate and rapid dimerization (k ) 2.8 × 10 -6 s -1 ). The related species CpTi(OC 6 H 3 -2,6-i-Pr 2 )(SBn… Show more

“…7 Retrospection reveals two outstanding features of the {Pt 2 S 2 } core: (a) the flexible hinge angle (θ) of the central {Pt 2 S 2 } ring, and (b) the highly pronounced nucleophilicity of the lone pairs on the two µ-sulfido ligands. Together, these features adapt the {Pt 2 S 2 } core to the requirements of a variety of ML m X n (M = heterometal; L = ligand; X = halide or pseudohalide) compounds, displacing X Ϫ and affording aggregates of the type [(Ph 3 P) 4 Pt 2 (µ 3 -S) 2 -ML m ] nϩ (X Ϫ ) n . Based on this knowledge, we have prepared a variety of homo-and hetero-metallic aggregates based on the {Pt 2 S 2 } core.…”

“…Complexes with bridging sulfido ligands have received widespread attention because of their broad applications, from biological systems, 2 applied catalysis, 2a,3 to the chemistry of novel molecular systems. 4 Other main areas of application are the design of homo-and hetero-polynuclear clusters, 5 the self-assembly of supramolecular structures, and the photophysical properties of new luminescent and mesogenic phases.…”

A combinatorial-like probe on the reactivity of the {Pt2S2} core of Pt2(PPh3)4(μ-S)2 by electrospray mass spectrometry. Synthesis and structures of novel heterometallic sulfide aggregates of gold(III), mercury(II), and tin(IV) with platinum(II)

“…7 Retrospection reveals two outstanding features of the {Pt 2 S 2 } core: (a) the flexible hinge angle (θ) of the central {Pt 2 S 2 } ring, and (b) the highly pronounced nucleophilicity of the lone pairs on the two µ-sulfido ligands. Together, these features adapt the {Pt 2 S 2 } core to the requirements of a variety of ML m X n (M = heterometal; L = ligand; X = halide or pseudohalide) compounds, displacing X Ϫ and affording aggregates of the type [(Ph 3 P) 4 Pt 2 (µ 3 -S) 2 -ML m ] nϩ (X Ϫ ) n . Based on this knowledge, we have prepared a variety of homo-and hetero-metallic aggregates based on the {Pt 2 S 2 } core.…”

“…Complexes with bridging sulfido ligands have received widespread attention because of their broad applications, from biological systems, 2 applied catalysis, 2a,3 to the chemistry of novel molecular systems. 4 Other main areas of application are the design of homo-and hetero-polynuclear clusters, 5 the self-assembly of supramolecular structures, and the photophysical properties of new luminescent and mesogenic phases.…”

A combinatorial-like probe on the reactivity of the {Pt2S2} core of Pt2(PPh3)4(μ-S)2 by electrospray mass spectrometry. Synthesis and structures of novel heterometallic sulfide aggregates of gold(III), mercury(II), and tin(IV) with platinum(II)

“…The study of complexes with terminal metal-oxo, sulfido, seleno, and related ligands is an interesting area of inorganic chemistry. This is partly because they are used as reagents and precatalysts [2,3] for organic synthesis and also as models for the active sites in heterogeneous processes. A search in the Cambridge Structural Database (version 5.38, November 2016, plus one update) reveals that the occurrence of terminal chalcogenido complexes diminishes rapidly in the sequence O ≫ S > Se > Te making the oxo complexes the most prevalent.…”

Theoretical Study of Terminal Vanadium(V) Chalcogenido Complexes Bearing Chlorido and Methoxido Ligands

“…Transition metal complexes with bridging sulfur ligands have a broad scope comprising from a widely studied biological systems and applied industrial processes such as hydrodesulfurisation and catalysis to novel chemistry of molecular systems [5][6][7][8]. Organometallic early-late heterobimetallic complexes are relatively uncommon and efforts to develop this chemistry have been reviewed recently [9].…”

Early (Ti, Zr)-late (Rh, Ir) heteronuclear complexes with bridging sulphido ligands