Photocrystallographic Studies on Transition Metal Nitrito Metastable Linkage Isomers: Manipulating the Metastable State

Abstract: The design of solid-state materials whose properties and functions can be manipulated in a controlled manner by the application of light is an important objective in modern materials chemistry. When the material changes property or function, it is helpful if a simple measurable response, such as a change in color, can be detected. Potential applications for such materials are wide ranging, from data storage to smart windows. With the growing emphasis on solid-state materials that have two or more accessible en… Show more

“…Other reactions, which require little change in overall molecular shape such as those based upon photo-initiated rearrangements, 44,69,70 or ligand cleavage, 59 can also be observed in the solid-state. Powers' study 59 of a Ru-azide complex elegantly demonstrates the latter approach.…”

Isolating reactive metal-based species in Metal–Organic Frameworks – viable strategies and opportunities

“…Other reactions, which require little change in overall molecular shape such as those based upon photo-initiated rearrangements, 44,69,70 or ligand cleavage, 59 can also be observed in the solid-state. Powers' study 59 of a Ru-azide complex elegantly demonstrates the latter approach.…”

Isolating reactive metal-based species in Metal–Organic Frameworks – viable strategies and opportunities

“…Linkage photoisomers have been identified in a range of coordination complexes, 10 , 11 especially via the technical advances of photocrystallography, 12 − 15 which afford light-induced crystal structures. “Seeing is believing”, whereby N 2 , NO, NO 2 , and SO 2 linkage photoisomerization in Group 8 and Group 10 complexes have dominated photocrystallographic results thus far.…”

Nanooptomechanical Transduction in a Single Crystal with 100% Photoconversion

“…5 Single-crystal optical switching has been observed in a wide range of coordination complexes via the process of linkage photoisomerisation. 6,7 The light-sensitive ligand switches from its dark-state conguration to a photoisomer upon light activation, to afford a binary encoding in the crystal. The coordination complex, trans-[Ru(SO 2 )(NH 3 ) 4 (H 2 O)]tosylate 2 , (1) is one in a family of ruthenium sulfur-dioxide based (hereaer denoted [RuSO 2 ]) materials that exhibit SO 2 linkage photoisomerisation.…”

Low-energy optical switching of SO₂ linkage isomerisation in single crystals of a ruthenium-based coordination complex