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In Situ Lignin Sulfonation for Highly Conductive Wood/Polypyrrole Porous Composites

Gabriella G. Mastantuoni, Van Chinh Tran, Isak Engquist, Lars A. Berglund, Qi Zhou

2022Advanced Materials Interfaces26 citationsDOIOpen Access PDF

Abstract

Abstract To address the rising need of sustainable solutions in electronic devices, the development of electronically conductive composites based on lightweight but mechanically strong wood structures is highly desirable. Here, a facile approach for the fabrication of highly conductive wood/polypyrrole composites through top‐down modification of native lignin followed by polymerization of pyrrole in wood cell wall. By sodium sulfite treatment under neutral condition, sulfonated wood veneers with increased porosity but well‐preserved cell wall structure containing native lignin and lignosulfonates are obtained. The wood structure has a content of sulfonic groups up to 343 µmol g −1 owing to in situ sulfonated lignin which facilitates subsequent oxidative polymerization of pyrrole, achieving a weight gain of polypyrrole as high as 35 wt%. The lignosulfonates in the wood structure act as dopant and stabilizer for the synthesized polypyrrole. The composite reaches a high conductivity of 186 S m −1 and a specific pseudocapacitance of 1.71 F cm −2 at the current density of 8.0 mA cm −2 . These results indicate that tailoring the wood/polymer interface in the cell wall and activating the redox activity of native lignin by sulfonation are important strategies for the fabrication of porous and lightweight wood/conductive polymer composites with potential for sustainable energy applications.

Topics & Concepts

PolypyrroleMaterials scienceLignosulfonatesComposite materialLigninConductive polymerPolymerizationIn situ polymerizationComposite numberPolymerChemical engineeringOrganic chemistryChemistryEngineeringConducting polymers and applicationsSupercapacitor Materials and FabricationAdvanced Sensor and Energy Harvesting Materials
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