Conductive polymer coatings on PVA electrospun nanofibers by electrochemical polymerization/deposition toward improved mechanical performance

材料科学 纳米纤维 导电体 导电聚合物 复合材料 聚合 电化学 聚合物 沉积(地质) 电极 沉积物 生物 物理化学 古生物学 化学
作者
Alejandra Pérez-Nava,Ismael Hernández-Acosta,J. Betzabe González‐Campos,Bernardo A. Frontana-Uribe
出处
期刊:Progress in Organic Coatings [Elsevier BV]
卷期号:201: 109105-109105 被引量:4
标识
DOI:10.1016/j.porgcoat.2025.109105
摘要

In the present work, the post-electrospinning superficial functionalization of poly(vinyl alcohol) nanofibers (PVA-NF) with poly(3,4-ethylenedioxythiophene) (PEDOT) and polypyrrole (PPy) is addressed to produce PVA@PEDOT and PVA@PPy nanostructured composites. For this aim, the CPs coatings were electropolymerized and in situ electrodeposited from the corresponding monomers on the surface of PVA-NF collected on ITO electrodes, accomplishing the fibrous composites PVA@PEDOT and PVA@PPy. The assembly of CPs coatings on top of PVA-NF was characterized by FT-IR, FE-SEM and EDX elemental microanalysis, supporting the successful deposition of CP coatings. The electrochemical response of composites indicates that the redox properties of the CPs were preserved when deposited on the PVA-NF, and good capacitive behavior was displayed through 50 cycles of cyclic voltammetry. In addition, the PVA@CPs composites showed improved thermal resistance of at least 110 °C higher than the pristine PVA-NF. The evaluation of mechanical properties through stress-strain curves showed that incorporating PEDOT and PPy on the PVA improved Young's modulus to 95 MPa and 105 MPa, respectively, compared to pristine PVA-NF (61.4 MPa). Furthermore, the high water-solubility of the PVA-NF template leads to obtaining pure nanofibers of PPy and PEDOT at room temperature with preservation of microstructure at a high degree, being consistent with classical attributes associated with non-woven electrospun mats. This study demonstrates the feasibility of using PVA-NF as structural templates to guide the controlled deposition of CPs coatings during the electrochemical polymerization, outlining the crafting of well-organized nanofibrous environments of electro-responsive based on conducting polymers. • Modification of ITO electrodes with PVA-NF enables to control the assembly of CPs. • PVA-NF induces the organized assembly of PEDOT and PPy thin coats into as-spun frame. • Core-shell like PVA-NF@CPs are produced using PVA-NF as template. • PVA-NF@CPs exhibit improved mechanical behavior than conventional CPs films. • Core-shell NF are obtained by combining electrospinning and electropolymerization.
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