Effects of the reaction cavity on metastable optical excitation in ruthenium-sulfur dioxide complexes

Anthony E. Phillips; Jacqueline M. Cole; Kian Sing Low; Thierry d'Almeida

arxiv: 1111.4561 · v1 · pith:A5MIF7JLnew · submitted 2011-11-19 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall· physics.chem-ph· physics.comp-ph

Effects of the reaction cavity on metastable optical excitation in ruthenium-sulfur dioxide complexes

Anthony E. Phillips , Jacqueline M. Cole , Thierry d'Almeida , Kian Sing Low This is my paper

classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hallphysics.chem-phphysics.comp-ph

keywords achievedcrystalmetastableopticalapplicationsattemptscalculationscamphorsulfonate

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We report photoexcited-state crystal structures for two new members of the [Ru(SO_2)(NH_3)_4X]Y family: 1:X=H2O, Y=(+/-)-camphorsulfonate_2; 2:X=isonicotinamide, Y=tosylate_2. The excited states are metastable at 100 K, with a photoconversion fraction of 11.1(7)% achieved in 1, and 22.1(10)% and 26.9(10)% at the two distinct sites in 2.We further show using solid-state density-functional-theory calculations that the excited-state geometries achieved are strongly influenced by the local crystal environment. This result is relevant to attempts to rationally design related photoexcitation systems for optical data-storage applications.

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Effects of the reaction cavity on metastable optical excitation in ruthenium-sulfur dioxide complexes

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