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Single-Component Polycondensation of Bis(alkoxycarbonyldiazomethyl)aromatic Compounds To Afford Poly(arylene vinylene)s with an Alkoxycarbonyl Group on Each Vinylene Carbon Atom

Hiroaki Shimomoto, Taka-aki Moriya, Takeshi Mori, Tomomichi Itoh, Shinji Kanehashi, Kenji Ogino, Eiji Ihara

2020ACS Omega12 citationsDOIOpen Access PDF

Abstract

The original synthetic strategy for a new type of poly(arylene vinylene) (PAV) is presented, where the C═C-bond-forming coupling of bis(alkoxycarbonyldiazomethyl)aromatic compounds is utilized as propagation. The strategy is unique in that the resulting PAVs have an alkoxycarbonyl group as an electron-withdrawing substituent on each vinylene carbon atom in the polymer main chain. Among the transition-metal catalysts examined in this study, RuCl(cod)Cp* (cod = 1,5-cyclooctadiene, Cp* = pentamethylcyclopentadienyl) is the most efficient, affording PAVs from a series of bis(alkoxycarbonyldiazomethyl)aromatic compounds with a high trans-C═C-forming selectivity of up to 90%. A PAV sample with a fluorenylene framework as an arylene moiety prepared by the Ru catalyst exhibited a hole mobility of 4 × 10–6 cm2 V–1 s–1.

Topics & Concepts

AryleneSubstituentCondensation polymerMoietyCatalysisPolymer chemistryChemistryCarbon atomCarbon fibersMaterials scienceOrganic chemistryRing (chemistry)ArylComposite materialAlkylComposite numberCyclopropane Reaction MechanismsCatalytic Alkyne ReactionsSynthetic Organic Chemistry Methods
Single-Component Polycondensation of Bis(alkoxycarbonyldiazomethyl)aromatic Compounds To Afford Poly(arylene vinylene)s with an Alkoxycarbonyl Group on Each Vinylene Carbon Atom | Litcius