2020
DOI: 10.1002/macp.202000321
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Examining the Spin State and Redox Chemistry of Ni(Diimine) Catalysts during the Synthesis of π‐Conjugated Polymers

Abstract: Polymeric semiconductors are lightweight organic materials, unlike their lattice-based inorganic counterparts such as silicon. This confers advantages in terms of flexibility and processability, making them of particular interest for application in electronic devices with specialized form-factors. [4-6] The most common approach to synthesize π-conjugated polymers is by transition-metal catalyzed cross-coupling reactions between metalated and halogenated monomers. A variety of reactions have been utilized to po… Show more

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Cited by 6 publications
(9 citation statements)
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“…High-spin tetrahedral LNiBr 2 complexes often show paramagnetism and are hardly characterized by NMR analysis. , Indeed, Ni-3 was not characterized by NMR analysis according to previous report . On the contrary, low-spin square-planar Ni-1 and Ni-2 complexes were herein characterized by NMR spectroscopies.…”
Section: Resultsmentioning
confidence: 87%
See 1 more Smart Citation
“…High-spin tetrahedral LNiBr 2 complexes often show paramagnetism and are hardly characterized by NMR analysis. , Indeed, Ni-3 was not characterized by NMR analysis according to previous report . On the contrary, low-spin square-planar Ni-1 and Ni-2 complexes were herein characterized by NMR spectroscopies.…”
Section: Resultsmentioning
confidence: 87%
“…Only an atypical crystallization of the sandwich-like α-diimine nickel complex involves square-planar and tetrahedral geometries within a same single crystal because of weak metal-to-ligand coordination . As a matter of fact, the relative distortion of the square-planar and tetrahedral geometries of LNiX 2 complexes has been used to quantify the ligand effects of the steric and electronic environments around the nickel metal, which is closely related to catalytic performance. , …”
Section: Introductionmentioning
confidence: 99%
“…Optimization of electronic and steric properties of diimine ligands has resulted in improved BTz polymerization; however, they are outperformed by phosphine ligands overall. 58 For example, Ni(II)diimine catalysts yield PBTz and P3HT with multiple end-group distributions and moderate dispersities (Đ ≈ 1.7), 10 whereas Ni(II)phosphine catalysts can synthesize poly(3hexylthiophene) with uniform end groups and narrow dispersities (Đ ≈ 1.1). Beyond evaluating the strength of the catalyst−polymer association complex, we disclosed the role of spin-state and redox chemistry on Ni(II)diimine catalyst performance.…”
Section: Electron-deficient Polymersmentioning
confidence: 99%
“…To bridge the gap between traditional metal catalyzed cross‐couplings and metal‐free radical pathways, we set out to explore conjugated polymer synthesis mediated by first‐row transition metal dinuclear complexes with redox‐active ligands, which can accommodate single‐electron processes. Indeed, redox‐active ligands had been previously shown to support open shell intermediates in a conjugated polymer synthesis [24] . Meanwhile, our focus on dinuclear complexes stems from the observation that they often provide access to mechanistic manifolds that complement their mononuclear counterparts.…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, redox-active ligands had been previously shown to support open shell intermediates in a conjugated polymer synthesis. [24] Meanwhile, our focus on dinuclear complexes stems from the observation that they often provide access to mechanistic manifolds that complement their mononuclear counterparts. For example, Hoffmann and Trinquier predicted that concerted reductive eliminations at dinuclear complexes would generally be symmetry forbidden.…”
Section: Introductionmentioning
confidence: 99%