Modulation of Electrochemical and Spectroscopic Properties in Ru(II)‐Terpyridyl End‐Capped Homobimetallic Organometallic Complexes by Varying π‐Conjugated Organic Spacers

Abstract: A series of wire-like binuclear Ru(II) complexes, 10-13, of general formula [(tpy-C 6 H 4 -Me)(PPh 3 ) 2 RuÀ C�CÀ Ar-C�CÀ Ru-(PPh 3 ) 2 (tpy-C 6 H 4 -Me)] 2 + , (tpy-C 6 H 4 -Me = 4'(4-tolyl)-2,2'-6',2''-terpyridyl; Ar = thienyl, phenyl, benzothiadiazolyl and fluorenyl respectively) have been judiciously designed, developed and characterized by various spectroscopic tools. The aromatic bridging moieties have been varied systematically to tune not only the chain length but also the electronic nature of the spac… Show more

“…Structural modulation of organometallic complexes by designing ligands and metal precursors has become a dynamic tool for deriving novel architectures with potential applications in a variety of areas. 1,2 Among other studied organometallic complexes, organotin complexes have gained remarkable recognition due to their rich structural chemistry. 3,4 Tin has a strong ability to bind with O-, N-, and S-donor ligands in various coordination numbers and consequently adopt a variety of interesting structures.…”

Stabilization of unusual discrete diorganotin carboxylates using the intramolecular coordination approach: synthesis, structure, TD-DFT, and Hirshfeld surface analyses

“…Structural modulation of organometallic complexes by designing ligands and metal precursors has become a dynamic tool for deriving novel architectures with potential applications in a variety of areas. 1,2 Among other studied organometallic complexes, organotin complexes have gained remarkable recognition due to their rich structural chemistry. 3,4 Tin has a strong ability to bind with O-, N-, and S-donor ligands in various coordination numbers and consequently adopt a variety of interesting structures.…”

Stabilization of unusual discrete diorganotin carboxylates using the intramolecular coordination approach: synthesis, structure, TD-DFT, and Hirshfeld surface analyses