Literature DB >> 27796786

Is photoisomerization required for NO photorelease in ruthenium nitrosyl complexes?

Juan Sanz García1, Fabienne Alary2, Martial Boggio-Pasqua1, Isabelle M Dixon1, Jean-Louis Heully1.   

Abstract

The factors that explain the competition between intramolecular NO linkage photoisomerization and NO photorelease in five ruthenium nitrosyl complexes were investigated. By applying DFT-based methods, it was possible to characterize the ground states and lowest triplet potential energy surfaces of these species, and to establish that both photoisomerization and photorelease processes can occur in the lowest triplet state of each species. This work highlights the crucial role of the sideways-bonded isomer, a metastable state also known as the MS2 isomer, in the photochemical loss of NO, while the results obtained also indicate that the population of the triplet state of this isomer is compulsory for both processes and show how photoisomerization and photorelease interfere. Graphical Abstract Illustration of the crucial role of the 3MS2 state in the photoreactivities of ruthenium nitrosyl complexes.

Entities:  

Keywords:  Bond dissociation energy; Chain-of-states method; Computational study; DFT; Nitrosyl; Photoisomerization pathway; Photorelease; Ruthenium complexes

Year:  2016        PMID: 27796786     DOI: 10.1007/s00894-016-3138-2

Source DB:  PubMed          Journal:  J Mol Model        ISSN: 0948-5023            Impact factor:   1.810


  35 in total

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5.  Transient metal-centered states mediate isomerization of a photochromic ruthenium-sulfoxide complex.

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6.  CASPT2 Potential Energy Curves for NO Dissociation in a Ruthenium Nitrosyl Complex.

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7.  A Theoretical Study of the N to O Linkage Photoisomerization Efficiency in a Series of Ruthenium Mononitrosyl Complexes.

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