An eco-friendly method to enhance optical and electrical properties of conducting polymers by means of carboxymethyl cellulose

DOI：10.1007/s10570-019-02248-9 期刊：Cellulose 出版年份：2019 更新时间：2025-09-23 15:23:52

摘要： In this work, an eco-friendly method is proposed for the electro-synthesis of conductive polymers with superior optical and electrical properties by means of CMC in aqueous media. For this purpose, an aqueous dispersion of a water-insoluble monomer namely 4-amino-N-[2,5-di(thiophen-2-yl)-1H-pyrrol-1-yl]benzamide (TPB) has been prepared by attaching it to CMC via hydrogen bonds and the conductive composite film (PTPB–CMC) has been obtained by electropolymerization. The TPB monomer has been chosen to interact with the CMC via hydrogen bonds which ensures to obtain dispersion with the CMC and also increase the compatibility of its polymer in the composite structure. As a result of the electrochemical, spectroelectrochemical investigation and surface morphology analyses of the obtained conductive polymer, it has been found that anionic CMC makes improvements in the electrical, optical and mechanical properties of the polymer by making the plasticizing effect and acting as a dopant. Furthermore, in the presence of nanocarbon materials on electrode surface, it has been determined that the polymerization potential reduced and more stable and long-lasting polymeric films which are crucial for technological applications have been obtained.

关键词： Electrochemical polymerization Composite materials Conducting polymers Carboxymethyl cellulose

作者： Tugba Soganci，Metin Ak

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研究目的

To develop an eco-friendly method for enhancing the optical and electrical properties of conducting polymers using carboxymethyl cellulose (CMC) in aqueous media, specifically through electro-synthesis of composite films.

研究成果

The eco-friendly method successfully enhances the optical, electrical, and mechanical properties of conducting polymers using CMC, with nanocarbon materials further improving stability and reducing polymerization potential, making it suitable for optoelectronic applications.

研究不足

The study is limited to specific monomers and CMC; scalability and industrial application may require further optimization. The use of aqueous media might restrict compatibility with certain solvents or conditions.

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设备名称型号厂家功能

rGO 777,684 Sigma-Aldrich
Nanocarbon material used to modify electrode surfaces to enhance electrochemical properties.
UV-Vis Spectrophotometer 8453 Agilent
Used for spectroelectrochemical studies to analyze optical properties.

SEM SUPRA 40 Carl Zeiss AG
Used for surface morphology analysis of materials.
CMC Dk 500 Dencell
Used as a biopolymer for dispersion and composite formation, acting as a plasticizer and dopant.
fMWCNT Sigma-Aldrich
Functionalized multi-walled carbon nanotube used as a nanocarbon material for electrode modification.
Potentiostat-Galvanostat Ivium
Used for electrochemical experiments and control.
ITO
Indium-tin-oxide coated glass slides used as working electrodes.
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