Influence of Changing the Remote Substituents on Charge Transfer Properties of Cyanide‐Bridged Trinuclear Fe−Ru−Fe Complexes

To investigate the effect of ligand remote (>10 Å) substituents on the bridging metal center on the metal‐to‐metal charge transfer (MMCT) properties in cyanidometa‐bridged complexes, a series of new cyanidometal‐bridged complexes and their one‐electron and two‐electron oxidation products have bee...

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Published in:European journal of inorganic chemistry 2023-04, Vol.26 (12), p.n/a
Main Authors: Tan, Bing‐Chang, Wang, Qian, Jiang, Long‐Long, Song, Ying, Wu, Xin‐Tao, Sheng, Tian‐Lu
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Language:English
Subjects:
Charge transfer
crystal structure
cyanides
electron transfer
Ethane
Inorganic chemistry
Ligands
mixed-valence
Oxidation
remote substituents
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Jiang, Long‐Long
Song, Ying
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description To investigate the effect of ligand remote (>10 Å) substituents on the bridging metal center on the metal‐to‐metal charge transfer (MMCT) properties in cyanidometa‐bridged complexes, a series of new cyanidometal‐bridged complexes and their one‐electron and two‐electron oxidation products have been synthesized and well characterized (namely, trans‐[Cp(dppe)Fe−NC−(L)Ru(PPh3)−CN−Fe(dppe)Cp][PF6]n (n=2, 3, 4) (L=dmptpy, 1[PF6]n; L=meoptpy, 2[PF6]n; L=t‐Buptpy, 3[PF6]n) (Cp=1,3‐cyclopentadiene, dppe=1,2‐bis(diphenylphosphino)ethane, PPh3=triphenylphosphine, dmptpy=4′‐(4‐dimethylaminophenyl)‐2,2′,6′,2′′‐terpyridine, meoptpy=4′‐(4‐methoxyphenyl)‐2,2′,6′,2′′‐terpyridine, t‐Buptpy=4′‐(4‐tertbutylphenyl)‐2,2′,6′,2′′‐terpyridine)). The investigations suggest that the cyanido‐stretching (νCN) vibration energy for the complexes is unsensitive to the electron‐donating ability change of the remote substituents of the cyanidometal bridging auxiliary ligand from tertbutyl, methoxy to dimethylamino group. However, the MMCT energies of the one‐ and two‐electron oxidation complexes are still sensitive to the remote substituents of the ligand on the bridging metal center, and decreases with the increase of the electron‐donating ability of the remote substituents from tertbutyl, methoxy to dimethylamino group. All one‐electron and two‐electron oxidation products belong to Class II mixed valence compounds according to the classification of Robin and Day. A series of new cyanidometallic‐bridged complexes were synthesized and characterized. As the electron‐donating ability of the remote (>10 Å) substituents of the cyanidometal bridging auxiliary ligand increases from tertbutyl, methoxy to dimethylamino, the MMCT and IVCT energy decreases.
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The investigations suggest that the cyanido‐stretching (νCN) vibration energy for the complexes is unsensitive to the electron‐donating ability change of the remote substituents of the cyanidometal bridging auxiliary ligand from tertbutyl, methoxy to dimethylamino group. However, the MMCT energies of the one‐ and two‐electron oxidation complexes are still sensitive to the remote substituents of the ligand on the bridging metal center, and decreases with the increase of the electron‐donating ability of the remote substituents from tertbutyl, methoxy to dimethylamino group. All one‐electron and two‐electron oxidation products belong to Class II mixed valence compounds according to the classification of Robin and Day. A series of new cyanidometallic‐bridged complexes were synthesized and characterized. 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The investigations suggest that the cyanido‐stretching (νCN) vibration energy for the complexes is unsensitive to the electron‐donating ability change of the remote substituents of the cyanidometal bridging auxiliary ligand from tertbutyl, methoxy to dimethylamino group. However, the MMCT energies of the one‐ and two‐electron oxidation complexes are still sensitive to the remote substituents of the ligand on the bridging metal center, and decreases with the increase of the electron‐donating ability of the remote substituents from tertbutyl, methoxy to dimethylamino group. All one‐electron and two‐electron oxidation products belong to Class II mixed valence compounds according to the classification of Robin and Day. A series of new cyanidometallic‐bridged complexes were synthesized and characterized. 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The investigations suggest that the cyanido‐stretching (νCN) vibration energy for the complexes is unsensitive to the electron‐donating ability change of the remote substituents of the cyanidometal bridging auxiliary ligand from tertbutyl, methoxy to dimethylamino group. However, the MMCT energies of the one‐ and two‐electron oxidation complexes are still sensitive to the remote substituents of the ligand on the bridging metal center, and decreases with the increase of the electron‐donating ability of the remote substituents from tertbutyl, methoxy to dimethylamino group. All one‐electron and two‐electron oxidation products belong to Class II mixed valence compounds according to the classification of Robin and Day. A series of new cyanidometallic‐bridged complexes were synthesized and characterized. 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subjects Charge transfer
crystal structure
cyanides
electron transfer
Ethane
Inorganic chemistry
Ligands
mixed-valence
Oxidation
remote substituents
title Influence of Changing the Remote Substituents on Charge Transfer Properties of Cyanide‐Bridged Trinuclear Fe−Ru−Fe Complexes
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