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Role of coherent nuclear motion in the ultrafast intersystem crossing of ruthenium complexes

JunWoo Kim, Dong‐gu Kang, Sang Kyu Kim, Taiha Joo

2020Physical Chemistry Chemical Physics27 citationsDOI

Abstract

Ultrafast intersystem crossing (ISC) in transition metal complexes leads to a long-lived active state with a high yield, which leads to efficient light energy conversion. The detailed mechanism of ISC may lead to a rational molecular design of superior transition metal complexes. Coherent nuclear wave packets observed in femtosecond time-resolved spectroscopies provide important information on the excited-state dynamics. In particular, analyzing the nuclear wave packets in both the reactant and the product may unveil the molecular dynamics of an ultrafast reaction. In this study, experimental evidence proving the reaction coordinates of the ultrafast ISC of ruthenium(ii) complexes is presented using coherent vibrational spectroscopy with a quantum chemical simulation of coherent vibrational motion. We observed vibrational modes strongly coupled to the ISC, whose vibrational coherences undergo remarkable attenuation after the ISC. The coupled modes contain metal-ligand stretching or symmetry breaking components, and the faster ISC rates of lower-symmetry ruthenium(ii) complexes support the significance of the latter.

Topics & Concepts

Intersystem crossingRutheniumUltrashort pulsePhotochemistryMotion (physics)ChemistryChemical physicsPhysicsLaserAtomic physicsOpticsClassical mechanicsCatalysisOrganic chemistryExcited stateSinglet stateSpectroscopy and Quantum Chemical StudiesAdvanced NMR Techniques and ApplicationsMolecular spectroscopy and chirality
Role of coherent nuclear motion in the ultrafast intersystem crossing of ruthenium complexes | Litcius