Abstract

A strategy was used to control the crosslinking of polyaniline (PANi) to allow the synthesis of high-molecular-weight, conductive copolymers. Aniline sulfide resin (ASR) was synthesized by the reaction of aniline and sulfide dichloride. Crosslinked ASR (ASC) was prepared in the presence of ammonium peroxydisulfate and aniline in an aqueous solution as the oxidant and monomer, respectively. The graft copolymer was obtained by oxidizing aniline on ASR in the presence of an initiator and an excess amount of aniline, in which the aniline was oxidized to form PANi through a radical cation mechanism. By changing the ratio of ASR to aniline during the polymerization reaction, it was possible to control the number of crosslinked sites, the electrical conductivity, the molecular weight and the solubility. The structure was characterized by spectroscopic data. The method introduced here describes a strategy for controlling the molecular weight of PANi and in turn its physical properties. This approach may be extended to the synthesis and modification of other polymers. Electropolymerization was carried out by coating ASR on the surface of a glassy carbon disk electrode and then growing this on graft copolymer ASC in the presence of fresh aniline and an acidic solution. The electrical conductivity of ASC was studied by a four-point probe method and produced a conductivity of 8.5 × 10−3 S cm–1. Aniline sulfide resin (ASR) is synthesized by the reaction of aniline and sulfide dichloride. Crosslinked ASR (ASC) has been prepared in the presence of ammonium peroxydisulfate and aniline in aqueous solution as oxidant and monomer, respectively. By changing the ratio of ASR to aniline during the polymerization reaction, it is possible to control the number of crosslinked sites, electrical conductivity, molecular weight and solubility. Electropolymerization was carried out by coating ASR on the surface of glassy carbon disk electrode, and then grown on a graft copolymer ASC in the presence of fresh aniline and acidic solution. Electrical conductivity of ASC has been studied by four-point probe method and produced 8.5 × 10−3 S cm–1 conductivity for it.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call