Electronic Coupling in Triferrocenylpnictogens

Corina Stoian; Fawaz Al Hussein; Wesley R. Browne; Emanuel Hupf; Jens Beckmann

doi:10.1021/acsorginorgau.4c00034

Electronic Coupling in Triferrocenylpnictogens

Corina Stoian, Fawaz Al Hussein, Wesley R. Browne, Emanuel Hupf^*, Jens Beckmann^*

^*Corresponding author for this work

Molecular Inorganic Chemistry

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

From a fundamental perspective, studies of novel mixed-valent complexes containing ferrocenyl units are motivated by the prospect of improving and extending electron transfer models and theories. Here, the series of triferrocenylpnictogens Fc₃E was extended to the heavier analogues (E = As, Sb, and Bi), and the influence of the bridging atom was investigated with Fc₃P as a reference. Electrochemical studies elucidate the effect of electrostatic contribution on the large redox splitting (ΔE₁) exhibited by the compounds and solvent stabilization in the case of Fc₃As. Structural characterization of the triferrocenylpnictogens combined with spectroelectrochemical studies indicates weak electronic couplings in the related cations [Fc₃E]⁺, suggesting a through-space mechanism.

Original language	English
Article number	4c00034
Pages (from-to)	545–556
Number of pages	12
Journal	ACS Organic and Inorganic Au
Volume	4
Issue number	5
Early online date	17-Aug-2024
DOIs	https://doi.org/10.1021/acsorginorgau.4c00034
Publication status	Published - 2-Oct-2024

Keywords

ferrocene
pnictogens
mixed valence species
spectroelectrochemistry
charge transfer

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title = "Electronic Coupling in Triferrocenylpnictogens",

abstract = "From a fundamental perspective, studies of novel mixed-valent complexes containing ferrocenyl units are motivated by the prospect of improving and extending electron transfer models and theories. Here, the series of triferrocenylpnictogens Fc3E was extended to the heavier analogues (E = As, Sb, and Bi), and the influence of the bridging atom was investigated with Fc3P as a reference. Electrochemical studies elucidate the effect of electrostatic contribution on the large redox splitting (ΔE1) exhibited by the compounds and solvent stabilization in the case of Fc3As. Structural characterization of the triferrocenylpnictogens combined with spectroelectrochemical studies indicates weak electronic couplings in the related cations [Fc3E]+, suggesting a through-space mechanism.",

keywords = "ferrocene, pnictogens, mixed valence species, spectroelectrochemistry, charge transfer",

author = "Corina Stoian and {Al Hussein}, Fawaz and Browne, {Wesley R.} and Emanuel Hupf and Jens Beckmann",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors. Published by American Chemical Society.",

year = "2024",

month = oct,

day = "2",

doi = "10.1021/acsorginorgau.4c00034",

language = "English",

volume = "4",

pages = "545–556",

journal = "ACS Organic and Inorganic Au",

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publisher = "American Chemical Society",

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TY - JOUR

T1 - Electronic Coupling in Triferrocenylpnictogens

AU - Stoian, Corina

AU - Al Hussein, Fawaz

AU - Browne, Wesley R.

AU - Hupf, Emanuel

AU - Beckmann, Jens

PY - 2024/10/2

Y1 - 2024/10/2

N2 - From a fundamental perspective, studies of novel mixed-valent complexes containing ferrocenyl units are motivated by the prospect of improving and extending electron transfer models and theories. Here, the series of triferrocenylpnictogens Fc3E was extended to the heavier analogues (E = As, Sb, and Bi), and the influence of the bridging atom was investigated with Fc3P as a reference. Electrochemical studies elucidate the effect of electrostatic contribution on the large redox splitting (ΔE1) exhibited by the compounds and solvent stabilization in the case of Fc3As. Structural characterization of the triferrocenylpnictogens combined with spectroelectrochemical studies indicates weak electronic couplings in the related cations [Fc3E]+, suggesting a through-space mechanism.

AB - From a fundamental perspective, studies of novel mixed-valent complexes containing ferrocenyl units are motivated by the prospect of improving and extending electron transfer models and theories. Here, the series of triferrocenylpnictogens Fc3E was extended to the heavier analogues (E = As, Sb, and Bi), and the influence of the bridging atom was investigated with Fc3P as a reference. Electrochemical studies elucidate the effect of electrostatic contribution on the large redox splitting (ΔE1) exhibited by the compounds and solvent stabilization in the case of Fc3As. Structural characterization of the triferrocenylpnictogens combined with spectroelectrochemical studies indicates weak electronic couplings in the related cations [Fc3E]+, suggesting a through-space mechanism.

KW - ferrocene

KW - pnictogens

KW - mixed valence species

KW - spectroelectrochemistry

KW - charge transfer

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U2 - 10.1021/acsorginorgau.4c00034

DO - 10.1021/acsorginorgau.4c00034

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JO - ACS Organic and Inorganic Au

JF - ACS Organic and Inorganic Au

IS - 5

M1 - 4c00034

ER -

Electronic Coupling in Triferrocenylpnictogens

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CCDC 2352725: Experimental Crystal Structure Determination

CCDC 2352723: Experimental Crystal Structure Determination

CCDC 2352726: Experimental Crystal Structure Determination

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Electronic Coupling in Triferrocenylpnictogens

Abstract

Keywords

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CCDC 2352725: Experimental Crystal Structure Determination

CCDC 2352723: Experimental Crystal Structure Determination

CCDC 2352726: Experimental Crystal Structure Determination

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