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2,6-Azulene-based Homopolymers: Design, Synthesis, and Application in Proton Exchange Membrane Fuel Cells

Bin Hou, Zhuofan Zhou, Cui Yu, Xiao‐Song Xue, Jianwei Zhang, Xiaodi Yang, Jing Li, Congwu Ge, Jingtao Wang, Xike Gao

2022ACS Macro Letters18 citationsDOI

Abstract

Azulene-based homopolymers are of great interest from the point view of chemistry and material science. Herein, by means of Friedel–Crafts acylation to introduce solubilizing chains on the 1-position of azulene, we designed and synthesized two examples of 2,6-azulene-based homopolymers RP(Az-AC16) and P(Az-AC16). The arrangement of 2,6-azulene units is irregular for RP(Az-AC16), while P(Az-AC16) has head-to-head/tail-to-tail arranged 2,6-azulene units. Proton-responsive studies demonstrate that RP(Az-AC16) and P(Az-AC16) show reversible proton responsiveness in both solution and thin film. To utilize the dynamically reversible proton-responsive property of these polymers in thin films, RP(Az-AC16) and P(Az-AC16) were incorporated into a Nafion matrix as proton exchange membranes, wherein the Nafion/P(Az-AC16) composite membrane exhibits significant increases in proton conductivity relative to the Nafion membrane at different temperatures of each relative humidity (RH), which further results in a 64% improvement in hydrogen fuel cell output power under 30% RH at 80 °C. Our studies have realized the first solution synthesis of 2,6-azulene-based homopolymers and the first application of azulene-based π-systems in hydrogen fuel cells.

Topics & Concepts

AzuleneProton exchange membrane fuel cellMaterials scienceMembraneFuel cellsProtonChemical engineeringOrganic chemistryChemistryEngineeringPhysicsQuantum mechanicsBiochemistryFuel Cells and Related MaterialsConducting polymers and applicationsAdvanced battery technologies research