Constructing N‐Containing Poly(p‐Phenylene) (PPP) Films Through A Cathodic‐Dehalogenation Polymerization Method

Abstract

Developing the films of N‐containing unsubstituted poly(p‐phenylene) (PPP) films for diverse applications is significant and highly desirable because the replacement of sp² C atoms with sp² N atoms will bring novel properties to the as‐prepared polymers. In this research, an electrochemical‐dehalogenation polymerization strategy is employed to construct two N‐containing PPP films under constant potentials, where 2,5‐diiodopyridine (DIPy) and 2,5‐dibromopyrazine (DBPz) are used as starting agents. The corresponding polymers are named CityU‐23 (for polypyridine) and CityU‐24 (for polypyrazine). Moreover, it is found that both polymers can form films in situ on different conductive substrates (i.e., silicon, gold, ITO, and nickel), satisfying potential device fabrication. Furthermore, the as‐obtained thin films of CityU‐23 and CityU‐24 exhibit good performance of alkaline hydrogen evolution reaction with the overpotential of 212.8 and 180.7 mV and the Tafel slope of 157.0 and 122.4 mV dec⁻¹, respectively.