CW or Pulsed laser – That is the Question: Comparative Steady‐state Photocrystallographic Analysis of Metal Nitrosyl Linkage Isomers

Hasil, Asma; Konieczny, Krzysztof A.; Mikhailov, Artem; Pillet, Sébastien; Schaniel, Dominik

doi:10.1002/cptc.202300149

ChemPhotoChem

2024

DOI: 10.1002/cptc.202300149

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CW or Pulsed laser – That is the Question: Comparative Steady‐state Photocrystallographic Analysis of Metal Nitrosyl Linkage Isomers

Asma Hasil,

Krzysztof A. Konieczny,

Artem Mikhailov

et al.

Abstract: The investigation of photo‐induced effects is profoundly influenced by the characteristics of photo‐excitation sources. In this study, we present a comprehensive analysis of the structures of two photoinduced linkage isomers (PLI) in a ruthenium nitrosyl complex trans‐[Ru(py)4F(NO)](ClO4)2, following irradiation with both pulsed and continuous wave (CW) light sources under low temperature conditions. The X‐ray (photo)diffraction analysis shows that the resulting PLI generated from the two types of irradiation … Show more

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Cited by 4 publications

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Electronic structure of light-induced nitrosyl linkage isomers revealed by X-ray absorption spectroscopy at Ru L3,2-edges

Mikhailov,

Deresz,

Tiognou

et al. 2025

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Electronic structure of light-induced nitrosyl linkage isomers revealed by X-ray absorption spectroscopy at Ru L3,2-edges

Mikhailov,

Deresz,

Tiognou

et al. 2025

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Comparative Analysis of Photoswitching Properties of Analogous Nickel(II) and Palladium(II) Nitrite Complexes in the Solid State

Paszczyk,

Deresz,

Kamiński

et al. 2024

Crystal Growth & Design

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Two analogous photoswitchable square-planar nitrite coordination compounds of Ni II and Pd II with the (N,N,O)donor (1-phenyl-3-(2'-picolylimino)prop-2-en-1-one) ancillary ligand, Ni-1a and Pd-1a, are reported. The samples were thoroughly characterized (photo)crystallographically, spectroscopically, and computationally. Ni-1a crystallizes in the P1̅ space group with one molecule comprising the asymmetric unit, whereas Pd-1a tends to form polymorphic (Pd-1a and Pd-1a′) and solvatomorphic (with dichloromethane: Pd-1a-DCM and with chloroform: Pd-1a-CHCl 3 ) crystal structures. In the Ni-1a crystal structure, the nitro binding mode is dominant; however, some traces of the endonitrito isomer are detected, whereas for the palladium derivative, purely the nitro form is observed for all the crystal forms in the 100−290 K temperature range. Ni-1a, Pd-1a, and Pd-1a-DCM are efficient photoswitches working between 100 and 200 K, with conversions as high as 80−100% upon 470−530 nm light-emitting diode irradiation. At 200 K and above, the decrease in population of the photogenerated product is observed. Under continuous light irradiation, some notable population of the endo-nitrito isomer can be generated and crystallograhically detected also at higher temperatures (up to around 240 K). In the case of Ni-1a, the endo-nitrito form is generated faster, and its decay is slower at 200 K and at higher temperatures than for Pd-1a. It should also be noted that for Pd-1a, only one symmetry-independent molecule is photoswitchable. In turn, the Pd-1a′ and Pd-1a-CHCl 3 systems appeared nonphotoactive. Such behavior can be explained by the energetic factors, nitrite group orientation, and the shape of the reaction cavity. Interestingly, a strong linear correlation between the M•••M distance in the crystal structures of the examined photoswitches and the population of the endo-nitrito form is noted.

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Methods in molecular photocrystallography

Hatcher,

Warren,

Raithby

2024

Acta Crystallogr C Struct Chem

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Over the last three decades, the technology that makes it possible to follow chemical processes in the solid state in real time has grown enormously. These studies have important implications for the design of new functional materials for applications in optoelectronics and sensors. Light–matter interactions are of particular importance, and photocrystallography has proved to be an important tool for studying these interactions. In this technique, the three-dimensional structures of light-activated molecules, in their excited states, are determined using single-crystal X-ray crystallography. With advances in the design of high-power lasers, pulsed LEDs and time-gated X-ray detectors, the increased availability of synchrotron facilities, and most recently, the development of XFELs, it is now possible to determine the structures of molecules with lifetimes ranging from minutes down to picoseconds, within a single crystal, using the photocrystallographic technique. This review discusses the procedures for conducting successful photocrystallographic studies and outlines the different methodologies that have been developed to study structures with specific lifetime ranges. The complexity of the methods required increases considerably as the lifetime of the excited state shortens. The discussion is supported by examples of successful photocrystallographic studies across a range of timescales and emphasises the importance of the use of complementary analytical techniques in order to understand the solid-state processes fully.

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CW or Pulsed laser – That is the Question: Comparative Steady‐state Photocrystallographic Analysis of Metal Nitrosyl Linkage Isomers

Cited by 4 publications

References 39 publications

Electronic structure of light-induced nitrosyl linkage isomers revealed by X-ray absorption spectroscopy at Ru L3,2-edges

Electronic structure of light-induced nitrosyl linkage isomers revealed by X-ray absorption spectroscopy at Ru L3,2-edges

Comparative Analysis of Photoswitching Properties of Analogous Nickel(II) and Palladium(II) Nitrite Complexes in the Solid State

Methods in molecular photocrystallography

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