cis-Locked Ru(II)-DMSO Precursors for the Microwave-Assisted Synthesis of Bis-Heteroleptic Polypyridyl Compounds

Abstract: We describe a synthetic strategy for the preparation of bis-heteroleptic polypyridyl Ru(II) complexes of the type [Ru(L1) 2 (L2)] 2+ (L1 and L2 = diimine ligands) from well-defined Ru(II) precursors. For this purpose, a series of six neutral, anionic, and cationic cis -locked Ru(II)-DMSO complexes ( 2 – 7 ) of the general formula [Y] fac -[RuX(DMSO–S) 3 … Show more

“…Compounds 3-8 were prepared and fully characterized as described in ref. 36. Spectroscopic data were in accordance with the literature.…”

“…As mentioned above, we recently described how cis-locked Ru(II)-DMSO precursors with dioxo ligands can be exploited for ChemBioChem the efficient microwave-assisted synthesis of bis-heteroleptic polypyridyl compounds. [36] Ruthenium(II) complexes 3-8 were obtained as intermediates following this novel approach, as exemplified in Figure 3 for a neutral (6) and a cationic (7) complex. Compounds 3-8 are all soluble in DMSO, chloroform, and in aqueous media containing 1 % of DMSO.…”

“…We recently developed a synthetic strategy for the microwave-assisted efficient preparation of bis-heteroleptic Ru(II) polypyridyl compounds [Ru(L1) 2 (L2)] 2 + that involves the isolation of intermediates of the type [Ru(L1) 2 (O^O)]Cl n , where O^O is a symmetrical anionic dioxo ligand. [36] The dioxo complexes are neutral (n = 0) when O^O is oxalate (ox) or malonate (mal), mono-cationic (n = 1) when O^O is acetylacetonate (acac). Having this synthetic capability at hand, we decided to extend the studies mentioned above and investigated how the nature and charge of the dioxo ligand affected the anticancer properties of the {Ru(DIP) 2 } core.…”

“…drugs by our groups. [33][34][35] We recently developed a synthetic strategy for the microwave-assisted efficient preparation of bis-heteroleptic Ru(II) polypyridyl compounds [Ru(L1)2(L2)] 2+ that involves the isolation of intermediates of the type [Ru(L1)2(O^O)]Cln, where O^O is a symmetrical anionic dioxo ligand [36]. The dioxo complexes are neutral (n = 0) when O^O is oxalate (ox) or malonate (mal), mono-cationic (n = 1) when O^O is acetylacetonate (acac).…”

Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure‐Activity Relationship Study Shows the Importance of the Charge

“…Compounds 3-8 were prepared and fully characterized as described in ref. 36. Spectroscopic data were in accordance with the literature.…”

“…As mentioned above, we recently described how cis-locked Ru(II)-DMSO precursors with dioxo ligands can be exploited for ChemBioChem the efficient microwave-assisted synthesis of bis-heteroleptic polypyridyl compounds. [36] Ruthenium(II) complexes 3-8 were obtained as intermediates following this novel approach, as exemplified in Figure 3 for a neutral (6) and a cationic (7) complex. Compounds 3-8 are all soluble in DMSO, chloroform, and in aqueous media containing 1 % of DMSO.…”

“…We recently developed a synthetic strategy for the microwave-assisted efficient preparation of bis-heteroleptic Ru(II) polypyridyl compounds [Ru(L1) 2 (L2)] 2 + that involves the isolation of intermediates of the type [Ru(L1) 2 (O^O)]Cl n , where O^O is a symmetrical anionic dioxo ligand. [36] The dioxo complexes are neutral (n = 0) when O^O is oxalate (ox) or malonate (mal), mono-cationic (n = 1) when O^O is acetylacetonate (acac). Having this synthetic capability at hand, we decided to extend the studies mentioned above and investigated how the nature and charge of the dioxo ligand affected the anticancer properties of the {Ru(DIP) 2 } core.…”

“…drugs by our groups. [33][34][35] We recently developed a synthetic strategy for the microwave-assisted efficient preparation of bis-heteroleptic Ru(II) polypyridyl compounds [Ru(L1)2(L2)] 2+ that involves the isolation of intermediates of the type [Ru(L1)2(O^O)]Cln, where O^O is a symmetrical anionic dioxo ligand [36]. The dioxo complexes are neutral (n = 0) when O^O is oxalate (ox) or malonate (mal), mono-cationic (n = 1) when O^O is acetylacetonate (acac).…”

Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure‐Activity Relationship Study Shows the Importance of the Charge

“…Complex 1 was characterized by literature reported methods. 51 FT-IR (KBr, ν max cm −1 ): ῡ (aromatic C–H) 3009 (s) cm −1 , ῡ (CO) 1670 (s) cm −1 , ῡ (CN) 1627 (w) cm −1 , ῡ (CC) 1470 (w) cm −1 , ῡ (C–O) 1202 (w) cm −1 , ῡ (Ru–N) 460 (s) cm −1 , ῡ (Ru–O) 430 (w) cm −1 (w, weak; s, strong). 1 H NMR (400 MHz, DMSO- d 6 ): δ 7.73 (dd, 2H), 8.36 (s, 2H), 8.04 (d, 2H), 8.74 (d, 2H).…”

Photocytotoxic kinetically stable ruthenium(ii)-N,N-donor polypyridyl complexes of oxalate with anticancer activity against HepG2 liver cancer cells

N-(Aryl)pyrrole-2-aldimine complexes of ruthenium: synthesis, structure, and spectral and electrochemical properties