Redox Chemistry of Nickelocene-Based Monomers and Polymers

Rebecca A. Musgrave; Andrew D. Russell; Paul R. Gamm; Rebekah L. N. Hailes; Kevin Lam; Hazel A. Sparkes; Jennifer C. Green; William E. Geiger; Ian Manners

doi:10.1021/acs.organomet.1c00247

Redox Chemistry of Nickelocene-Based Monomers and Polymers

Rebecca A. Musgrave, Andrew D. Russell, Paul R. Gamm, Rebekah L. N. Hailes, Kevin Lam, Hazel A. Sparkes, Jennifer C. Green, William E. Geiger, Ian Manners

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1 Citation (Scopus)

Abstract

The oxidation of [n]nickelocenophanes [Ni(η5-C5H4)2(CH2)3] (3), [Ni(η5-C5H4)2(SiMe2)2] (10), [Ni(η5-C5H4)2(SiMe2)2O] (11), [Ni(η5-C5H4)2(CH2)4] (12), and poly(nickelocenylpropylene) [Ni(η5-C5H4)2(CH2)3]n (4) to both the monocationic and dicationic species was investigated in dichloromethane by cyclic voltammetry (CV) and square-wave voltammetry. The presence of acetonitrile on the oxidation potentials of 3 in dichloromethane was also investigated by CV. The [n]nickelocenophanes 3 and 10–12 exhibited two single-electron Nernstian redox processes, and the monocations [3]+, [10]+, [11]+, and [12]+ were isolable as [B(C6F5)4]− salts after chemical oxidation, and were structurally characterized. Ni–Cpcent distances in all four monomers decreased upon oxidation, with a structural distortion manifested in the ring-tilt angle, α, among other angles. CV studies of the reversible first oxidation process to the polyelectrolyte {[Ni(η5-C5H4)2(CH2)3]+}n ([4]n+) were used to estimate the molecular weight of the polymeric material (Mw = 5300 g mol–1) by comparing its diffusion coefficient with that of a monomeric analogue, and the second electrochemical oxidation of polymer 4 was found to be only partially chemically reversible.

Original language	English
Journal	ORGANOMETALLICS
Early online date	18 Jun 2021
DOIs	https://doi.org/10.1021/acs.organomet.1c00247
Publication status	Published - 18 Jun 2021

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@article{bfb66372d8c444caa293360c25d4fdab,

title = "Redox Chemistry of Nickelocene-Based Monomers and Polymers",

abstract = "The oxidation of [n]nickelocenophanes [Ni(η5-C5H4)2(CH2)3] (3), [Ni(η5-C5H4)2(SiMe2)2] (10), [Ni(η5-C5H4)2(SiMe2)2O] (11), [Ni(η5-C5H4)2(CH2)4] (12), and poly(nickelocenylpropylene) [Ni(η5-C5H4)2(CH2)3]n (4) to both the monocationic and dicationic species was investigated in dichloromethane by cyclic voltammetry (CV) and square-wave voltammetry. The presence of acetonitrile on the oxidation potentials of 3 in dichloromethane was also investigated by CV. The [n]nickelocenophanes 3 and 10–12 exhibited two single-electron Nernstian redox processes, and the monocations [3]+, [10]+, [11]+, and [12]+ were isolable as [B(C6F5)4]− salts after chemical oxidation, and were structurally characterized. Ni–Cpcent distances in all four monomers decreased upon oxidation, with a structural distortion manifested in the ring-tilt angle, α, among other angles. CV studies of the reversible first oxidation process to the polyelectrolyte {[Ni(η5-C5H4)2(CH2)3]+}n ([4]n+) were used to estimate the molecular weight of the polymeric material (Mw = 5300 g mol–1) by comparing its diffusion coefficient with that of a monomeric analogue, and the second electrochemical oxidation of polymer 4 was found to be only partially chemically reversible.",

author = "Musgrave, {Rebecca A.} and Russell, {Andrew D.} and Gamm, {Paul R.} and Hailes, {Rebekah L. N.} and Kevin Lam and Sparkes, {Hazel A.} and Green, {Jennifer C.} and Geiger, {William E.} and Ian Manners",

note = "Funding Information: We thank the Engineering and Physical Sciences Research Council (EPSRC, EP/N030702/1) for funding. I.M. thanks the Government of Canada for a C150 Research Chair and the University of Bristol for support. W.E.G. thanks the National Science Foundation for support (NSF CHE-1565541). Publisher Copyright: {\textcopyright} 2021 American Chemical Society Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = jun,

day = "18",

doi = "10.1021/acs.organomet.1c00247",

language = "English",

journal = "ORGANOMETALLICS",

issn = "0276-7333",

publisher = "American Chemical Society",

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T1 - Redox Chemistry of Nickelocene-Based Monomers and Polymers

AU - Musgrave, Rebecca A.

AU - Russell, Andrew D.

AU - Gamm, Paul R.

AU - Hailes, Rebekah L. N.

AU - Lam, Kevin

AU - Sparkes, Hazel A.

AU - Green, Jennifer C.

AU - Geiger, William E.

AU - Manners, Ian

N1 - Funding Information: We thank the Engineering and Physical Sciences Research Council (EPSRC, EP/N030702/1) for funding. I.M. thanks the Government of Canada for a C150 Research Chair and the University of Bristol for support. W.E.G. thanks the National Science Foundation for support (NSF CHE-1565541). Publisher Copyright: © 2021 American Chemical Society Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/6/18

Y1 - 2021/6/18

N2 - The oxidation of [n]nickelocenophanes [Ni(η5-C5H4)2(CH2)3] (3), [Ni(η5-C5H4)2(SiMe2)2] (10), [Ni(η5-C5H4)2(SiMe2)2O] (11), [Ni(η5-C5H4)2(CH2)4] (12), and poly(nickelocenylpropylene) [Ni(η5-C5H4)2(CH2)3]n (4) to both the monocationic and dicationic species was investigated in dichloromethane by cyclic voltammetry (CV) and square-wave voltammetry. The presence of acetonitrile on the oxidation potentials of 3 in dichloromethane was also investigated by CV. The [n]nickelocenophanes 3 and 10–12 exhibited two single-electron Nernstian redox processes, and the monocations [3]+, [10]+, [11]+, and [12]+ were isolable as [B(C6F5)4]− salts after chemical oxidation, and were structurally characterized. Ni–Cpcent distances in all four monomers decreased upon oxidation, with a structural distortion manifested in the ring-tilt angle, α, among other angles. CV studies of the reversible first oxidation process to the polyelectrolyte {[Ni(η5-C5H4)2(CH2)3]+}n ([4]n+) were used to estimate the molecular weight of the polymeric material (Mw = 5300 g mol–1) by comparing its diffusion coefficient with that of a monomeric analogue, and the second electrochemical oxidation of polymer 4 was found to be only partially chemically reversible.

AB - The oxidation of [n]nickelocenophanes [Ni(η5-C5H4)2(CH2)3] (3), [Ni(η5-C5H4)2(SiMe2)2] (10), [Ni(η5-C5H4)2(SiMe2)2O] (11), [Ni(η5-C5H4)2(CH2)4] (12), and poly(nickelocenylpropylene) [Ni(η5-C5H4)2(CH2)3]n (4) to both the monocationic and dicationic species was investigated in dichloromethane by cyclic voltammetry (CV) and square-wave voltammetry. The presence of acetonitrile on the oxidation potentials of 3 in dichloromethane was also investigated by CV. The [n]nickelocenophanes 3 and 10–12 exhibited two single-electron Nernstian redox processes, and the monocations [3]+, [10]+, [11]+, and [12]+ were isolable as [B(C6F5)4]− salts after chemical oxidation, and were structurally characterized. Ni–Cpcent distances in all four monomers decreased upon oxidation, with a structural distortion manifested in the ring-tilt angle, α, among other angles. CV studies of the reversible first oxidation process to the polyelectrolyte {[Ni(η5-C5H4)2(CH2)3]+}n ([4]n+) were used to estimate the molecular weight of the polymeric material (Mw = 5300 g mol–1) by comparing its diffusion coefficient with that of a monomeric analogue, and the second electrochemical oxidation of polymer 4 was found to be only partially chemically reversible.

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U2 - 10.1021/acs.organomet.1c00247

DO - 10.1021/acs.organomet.1c00247

M3 - Article

SN - 0276-7333

JO - ORGANOMETALLICS

JF - ORGANOMETALLICS

ER -

Redox Chemistry of Nickelocene-Based Monomers and Polymers

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