A kinetic model for photoswitching of magnetism in the high spin molecule [Mo(IV)(CN)2(CN–Cu(II)(tren))6](ClO4)8

Rajamani Raghunathan; S. Ramasesha; Corine Mathonière; Valérie Marvaud

doi:10.1039/B803395A

A kinetic model for photoswitching of magnetism in the high spin molecule [Mo(iv)(CN)₂(CN–Cu(ii)(tren))₆](ClO₄)₈

Rajamani Raghunathan,^a S. Ramasesha,*^a Corine Mathonière^b and Valérie Marvaud^c

* Corresponding authors

^a Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore, India
E-mail: rajamani@sscu.iisc.ernet.in, ramasesh@sscu.iisc.ernet.in

^b CNRS, Université de Bordeaux, Institut de Chimie de la Matière Condensée de Bordeaux, 87 avenue Dr. Schweitzer, Pessac, France
E-mail: mathon@icmcb-bordeaux.cnrs.fr

^c Laboratoire de Chimie Inorganique et Matériaux Moléculaires, CNRS UMR-7071, Université Pierre et Marie Curie, Paris Cedex 05, France
E-mail: valerie.marvaud@upmc.fr

Abstract

The heptanuclear complex [Mo(IV)(CN)₂(CN–CuL)₆]⁸⁺ switches from a paramagnetic dark state corresponding to six spin-1/2 Cu(II) ions to a predominantly high spin S = 3 state, on prolonged irradiation with 406 nm laser radiation at low temperature. The system returns to a paramagnetic state on warming to room temperature. The temperature dependence of the χ_MT vs. T curve depends upon duration of irradiation. An earlier microscopic model showed that the excitation cross sections in different spin manifolds are similar in magnitude and that photomagnetism is not due to preferential excitation to the S = 3 state. In this paper, we attribute photomagnetism to a long lived S = 3 charge transfer excited state for which there appears to be sufficient experimental evidence. Based on this postulate, we model the photomagnetism by employing a kinetic model which includes internal conversions and intersystem crossings. The key feature of the model is the assumption of the existence of two kinds of S = 3 states: one of which has no direct pathway for internal conversion and the other characterized by slow kinetics for internal conversion to the low-energy states. The trapped S = 3 state can decay via a thermally activated barrier to the other S = 3 state. The experimental χ_MT vs. T for two different irradiation times are fitted using Arrhenius dependence of the rate constants in the model.

Article information

https://doi.org/10.1039/B803395A

Article type

Paper

Submitted

27 Feb 2008

Accepted

06 May 2008

First published

11 Jul 2008

Download Citation

Phys. Chem. Chem. Phys., 2008,10, 5469-5474

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A kinetic model for photoswitching of magnetism in the high spin molecule [Mo(IV)(CN)₂(CN–Cu(II)(tren))₆](ClO₄)₈

R. Raghunathan, S. Ramasesha, C. Mathonière and V. Marvaud, Phys. Chem. Chem. Phys., 2008, 10, 5469 DOI: 10.1039/B803395A

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