کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
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1325556 | 1499880 | 2014 | 12 صفحه PDF | دانلود رایگان |
![عکس صفحه اول مقاله: Spectroelectrochemical study of complexes [Mo(CO)2(η3-allyl)(α-diimine)(NCS)] (α-diimine = bis(2,6-dimethylphenyl)-acenaphthenequinonediimine and 2,2′-bipyridine) exhibiting different molecular structure and redox reactivity Spectroelectrochemical study of complexes [Mo(CO)2(η3-allyl)(α-diimine)(NCS)] (α-diimine = bis(2,6-dimethylphenyl)-acenaphthenequinonediimine and 2,2′-bipyridine) exhibiting different molecular structure and redox reactivity](/preview/png/1325556.png)
• [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN)(NCS)] shows an uncommon crystal structure.
• Reduction path of [Mo(CO)2(η3-allyl)(α-diimine)X] is reported for the first time.
• Spectator NCS− ligand proves very convenient for IR spectroelectrochemistry.
• Catalytic CO2 reduction with [Mo(CO)2(η3-allyl)(bpy)]− in THF is also monitored.
The redox properties and reactivity of [Mo(CO)2(η3-allyl)(α-diimine)(NCS)] (α-diimine = bis(2,6-dimethylphenyl)-acenaphthenequinonediimine (2,6-xylyl-BIAN) and 2,2′-bipyridine (bpy)) were studied using cyclic voltammetry and IR/UV–Vis spectroelectrochemistry. [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN)(NCS)] was shown by X-ray crystallography to have an asymmetric (B-type) conformation. The extended aromatic system of the strong π-acceptor 2,6-xylyl-BIAN ligand stabilises the primary 1e−-reduced radical anion, [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN
• −)(NCS)]−, that can be reduced further to give the solvento anion [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN)(THF)]−. The initial reduction of [Mo(CO)2(η3-allyl)(bpy)(NCS)] in THF at ambient temperature results in the formation of [Mo(CO)2(η3-allyl)(bpy)]2 by reaction of the remaining parent complex with [Mo(CO)2(η3-allyl)(bpy)]− produced by dissociation of NCS− from [Mo(CO)2(η3-allyl)(bpy
• −)(NCS)]−. Further reduction of the dimer [Mo(CO)2(η3-allyl)(bpy)]2 restores [Mo(CO)2(η3-allyl)(bpy)]−. In PrCN at 183 K, [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN
• −)(NCS)]− converts slowly to 2e−-reduced [Mo(CO)2(η3-allyl)(2,6-xylyl-BIAN)(PrCN)]− and free NCS−. At room temperature, the reduction path in PrCN involves mainly the dimer [Mo(CO)2(η3-allyl)(bpy)]2; however, the detailed course of the reduction within the spectroelectrochemical cell is complicated and involves a mixture of several unassigned products. Finally, it has been shown that the five-coordinate anion [Mo(CO)2(η3-allyl)(bpy)]− promotes in THF reduction of CO2 to CO and formate via the formation of the intermediate [Mo(CO)2(η3-allyl)(bpy)(O2CH)] and its subsequent reduction.
Cathodic electrochemistry of complexes [Mo(CO)2(η3-allyl)(α-diimine)(X)] (X = halide or pseudohalide) has not been investigated so far and reports on their anodic behaviour are scarce. We monitored redox reactions of two electronically and structurally different representatives of this family successfully with UV–Vis–NIR–IR spectroelectrochemistry, and explored their potential to activate carbon dioxide.Figure optionsDownload as PowerPoint slide
Journal: Journal of Organometallic Chemistry - Volume 760, 15 June 2014, Pages 30–41