Affiliation:
1. Division of Molecular Science Graduate School of Science and Technology Gunma University 1-5-1, Tenjin-cho Kiryu 376-8515 Japan
2. Division of Pure and Applied Science Graduate School of Science and Technology Gunma University 1-5-1, Tenjin-cho Kiryu 376-8515 Japan
Abstract
AbstractSilanethione compounds, R2Si=S, have been recognized as highly reactive species. One reliable way to stabilize silanethione is its coordination to transition metal fragments to convert silanethione‐coordinated transition metal complexes. Herein, we report the synthesis, structure, and reactivity of a second cationic silanethione tungsten complex [Cp*(OC)3W{S=SiR2(py)}]TFPB (R=Me (5 a), Ph (5 b), Cp*: η5‐C5Me5, py: pyridine, and TFPB−: [B{3,5‐(CF3)2C6H3}4]−). Complex5was obtained by H−abstraction from the Si atom in the corresponding silylsulfanyl complex Cp*(OC)3W(SSiR2H) (4) with Ph3CTFPB, followed by the addition of pyridine. The reaction of5with PhNCS and PMe3produced [Cp*(OC)3W{SSiR2N(Ph)C(PMe3)2}]TFPB (R=Me (6 a), Ph (6 b)) via the elimination of pyridine and the addition of the 1,3‐dipolar species PhNC(PMe3)2(A) to the Si atom.
Funder
Ministry of Education, Culture, Sports, Science and Technology