Preparation and Characterization of Dopamine-Modified Carbon Fiber Paper Composites for Gas Diffusion Layers

Ma, Jiahua; Chen, Xiangyu; Sun, Xingming; Zhao, Chuanshan

doi:10.3390/polym15163428

Polymers

2023

DOI: 10.3390/polym15163428

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Preparation and Characterization of Dopamine-Modified Carbon Fiber Paper Composites for Gas Diffusion Layers

Jiahua Ma

Xiangyu Chen

Xingming Sun

et al.

Abstract: Carbon fibers (CFs) cannot be directly used for the preparation of CF paper because of their chemically inert nature. Herein, the surface of CFs was modified using the spontaneous oxidative self-polymerization of dopamine. By taking full advantage of the spontaneous oxidation and self-polymerization properties of PD to maintain the maximum strength of CFs, a polydopamine-modified CF paper (PDA-CFP) with excellent performance was prepared using PD-modified CFs (PDA-CFs). This increased the proportion of hydroph… Show more

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Cited by 4 publications

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Enhancing interfacial adhesion in carbon fiber‐reinforced composites through polydopamine‐assisted nanomaterial coatings

Sharma,

Sharma

2025

Polymer Composites

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This study explores the surface modification of carbon fiber (CF) with multi‐walled carbon nanotubes, graphene, and zinc oxide nanoparticles to improve interfacial adhesion in carbon fiber‐reinforced composites. A polydopamine (PDA) layer was used as a coupling agent to enhance the deposition and uniformity of the nanomaterial coatings on CF. The novelty lies in using PDA, which mimics mussel adhesive proteins, offering robust adhesion due to its amine and catechol functional groups. Elemental mapping through energy dispersive x‐ray spectroscopy, along with Fourier transform infrared (FTIR) and x‐ray diffraction analyses, confirmed the successful nanomaterial deposition while preserving the CF's graphitic structure. Nanoparticle structures at the nano‐level were examined under a transmission electron microscope. Contact angle measurements showed improved wettability, decreasing from 85.9° to 52.8°, and increasing surface energy from 5.10 to 44.1 J/m2, indicating better adhesion potential. The modified CF surface demonstrated improved interfacial bonding between the matrix and CF making them promising candidates for applications in hydrogen storage systems and energy storage devices, such as structural supercapacitors and batteries.Highlights Surface modification of carbon fibers to enhance interfacial properties. Nanomaterials were grown in a two‐step process on catalyst‐pretreated carbon fibers using dip coating. Uniform nanomaterial coating on carbon fibers confirmed by field emission scanning electron microscope analysis. Increased functionality of carbon fibers demonstrated by FTIR spectra. Improved wettability and adhesion confirmed by contact angle and surface energy measurements.

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Enhancing interfacial adhesion in carbon fiber‐reinforced composites through polydopamine‐assisted nanomaterial coatings

Sharma,

Sharma

2025

Polymer Composites

View full text Add to dashboard Cite

show abstract

Polydopamine-coated zeolitic imidazolate framework for enhanced anti-corrosion and self-healing capabilities of epoxy coating on magnesium alloy

Yu,

Ma,

et al. 2025

Applied Surface Science

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Electrophoretic deposition of graphene oxide modified carbon paper: Enhance the interface strength and decrease the interface resistance

Wang,

Li,

et al. 2024

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Preparation and Characterization of Dopamine-Modified Carbon Fiber Paper Composites for Gas Diffusion Layers

Cited by 4 publications

References 46 publications

Enhancing interfacial adhesion in carbon fiber‐reinforced composites through polydopamine‐assisted nanomaterial coatings

Enhancing interfacial adhesion in carbon fiber‐reinforced composites through polydopamine‐assisted nanomaterial coatings

Polydopamine-coated zeolitic imidazolate framework for enhanced anti-corrosion and self-healing capabilities of epoxy coating on magnesium alloy

Electrophoretic deposition of graphene oxide modified carbon paper: Enhance the interface strength and decrease the interface resistance

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