钌亚硝酰与吡啶和联吡啶的异配络合物——合成与光异构化

Heteroleptic Complexes of Ruthenium Nitrosyl with Pyridine and Bypiridine-Synthesis and Photoisomerization.

作者信息

Brovko Anastasiya O, Kuratieva Natalya V, Pishchur Denis P, Kostin Gennadiy A

机构信息

Nikolaev Institute of Inorganic Chemistry Siberian Branch of Russian Academy of Science, Lavrentieva 3, 630090 Novosibirsk, Russia.

出版信息

Molecules. 2024 Aug 26;29(17):4039. doi: 10.3390/molecules29174039.

DOI:10.3390/molecules29174039

PMID:39274887

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11397342/

Abstract

The reaction of [RuNO(Py)ClOH] with bipyridine in water-ethanol media results in trans-(NO, OH)-[RuNO(Py)(Bpy)ClOH] with an acceptable yield (60-70%) as hexafluorophosphate salt. Further treatment of the hydroxy-complex with concentrated HF quantitatively leads to trans-(NO, F)-[RuNO(Py)(Bpy)ClF]. Despite the chirality of both coordination spheres, the hexafluorophosphate salts crystallized as racemates. A NO-linkage isomerism study of the obtained complexes was performed at 80 K with different excitation wavelengths (405, 450, 488 nm). The most favorable wavelengths for the MS1 isomer (Ru-ON) formation were 405 and 450 nm, where the linkage isomer populations were 17% and 1% for [RuNO(Py)(Bpy)ClOH]PF and [RuNO(Py)(Bpy)ClF]PF. The shift of the excitation wavelength to the green (488 nm) sharply decreased the MS1 population. The IR-spectral signatures of MS1 were registered. Reverse-transformation Ru-ON (MS1)-Ru-NO (GS) was investigated for [RuNO(Py)(Bpy)ClOH]PF using IR and DSC techniques that made it possible to determine the kinetic parameters (E and k) and decay temperature.

摘要

[RuNO(Py)ClOH]与联吡啶在水 - 乙醇介质中反应，以六氟磷酸盐形式得到产率尚可（60 - 70%）的反式-(NO, OH)-[RuNO(Py)(Bpy)ClOH]。用浓HF对羟基配合物进一步处理可定量得到反式-(NO, F)-[RuNO(Py)(Bpy)ClF]。尽管两个配位球都具有手性，但六氟磷酸盐盐以外消旋体形式结晶。在80 K下，使用不同激发波长（405、450、488 nm）对所得配合物进行了NO键合异构化研究。对于MS1异构体（Ru - ON）形成最有利的波长是405和450 nm，其中对于[RuNO(Py)(Bpy)ClOH]PF和[RuNO(Py)(Bpy)ClF]PF，键合异构体的比例分别为17%和1%。激发波长向绿色（488 nm）的移动使MS1的比例急剧下降。记录了MS1的红外光谱特征。使用红外和差示扫描量热法技术对[RuNO(Py)(Bpy)ClOH]PF进行了Ru - ON（MS1） - Ru - NO（GS）的反向转化研究，从而能够确定动力学参数（E和k）以及衰变温度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8a3a/11397342/e52b9700e0f9/molecules-29-04039-g001.jpg

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钌亚硝酰与吡啶和联吡啶的异配络合物——合成与光异构化

Heteroleptic Complexes of Ruthenium Nitrosyl with Pyridine and Bypiridine-Synthesis and Photoisomerization.

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