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Electronic structures and reactivity aspects of ruthenium–nitrosyls

2011; Elsevier BV; Volume: 372; Issue: 1 Linguagem: Inglês

10.1016/j.ica.2011.01.077

1873-3255

Prinaka De, Tapan Kumar Mondal, Shaikh M. Mobin, Goutam Kumar Lahiri,

Lanthanide and Transition Metal Complexes

Nitrosyl complexes with {Ru–NO}6 (4(ClO4)3) and {Ru–NO}7 (4(ClO4)2) configurations have been isolated in the selective molecular framework of [Ru(tpm)(pap)(NO)]n+ (tpm = tris(1-pyrazolyl)methane and pap = 2-phenylazopyridine). The DFT optimized structures of [RuII(tpm)(pap)(NO+)]3+ (43+) and [RuII(tpm)(pap)(NO)]2+ (42+) predict that the Ru–N–O groups in the complexes are in almost linear and bent geometries, respectively. In agreement with largely NO centered reduction a sizeable shift in ν(NO) frequency of 324 cm−1 has been observed on moving from {RuII–NO+} state in 43+ to {RuII–NO) state in 42+. The DFT proposed NO centered spin in {RuII–NO) (42+) (Mulliken spin-densities: 0.860 (NO) and 0.087 (Ru)) has been evidenced by its free radical EPR spectrum with g = 1.989. The strongly electrophilic {RuII–NO+} state in 43+ (ν(NO): 1962 cm−1) can be transformed to the corresponding {RuII–NO2-} complex (3+) in the presence of nucleophile, OH− with k = 2.03 × 10−1 M−1 s−1 at 298 K in CH3CN. On irradiation with light the acetonitrile solution of [RuII(tpm)(pap)(NO+)]3+ (43+) undergoes facile photorelease of NO (kNO, s−1 = 0.1 × 10−1 and t1/2, s = 69.3) with the concomitant formation of the solvate [RuII(tpm)(pap)(CH3CN)]2+ (22+). The photoreleased NO can be trapped as an Mb–NO adduct.