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Zakrzewska A., Zargarian S.S., Rinoldi C., Gradys A.D., Jarząbek D.M., Zanoni M.♦, Gualandi C.♦, Lanzi M.♦, Pierini F., Electrospun Poly(vinyl alcohol)-Based Conductive Semi-interpenetrating Polymer Network Fibrous Hydrogel: A Toolbox for Optimal Cross-Linking,
ACS Materials Au, ISSN: 2694-2461, DOI: 10.1021/acsmaterialsau.3c00025, Vol.3, No.5, pp.464-482, 2023Abstract: Cross-linking of poly(vinyl alcohol) (PVA) creates a three-dimensional network by bonding adjacent polymer chains. The cross-linked structure, upon immersion in water, turns into a hydrogel, which exhibits unique absorption properties due to the presence of hydrophilic groups within the PVA polymer chains and, simultaneously, ceases to be soluble in water. The properties of PVA can be adjusted by chemical modification or blending with other substances, such as polymers, e.g., conductive poly[3-(potassium-5-butanoate)thiophene-2,5-diyl] (P3KBT). In this work, PVA-based conductive semi-interpenetrating polymer networks (semi-IPNs) are successfully fabricated. The systems are obtained as a result of electrospinning of PVA/P3KBT precursor solutions with different polymer concentrations and then cross-linking using “green”, environmentally safe methods. One approach consists of thermal treatment (H), while the second approach combines stabilization with ethanol and heating (E). The comprehensive characterization allows to evaluate the correlation between the cross-linking methods and properties of nanofibrous hydrogels. While both methods are successful, the cross-linking density is higher in the thermally cross-linked samples, resulting in lower conductivity and swelling ratio compared to the E-treated samples. Moreover, the H-cross-linked systems have better mechanical properties─lower stiffness and greater tensile strength. All the tested systems are biocompatible, and interestingly, due to the presence of P3KBT, they show photoresponsivity to solar radiation generated by the simulator. The results indicate that both methods of PVA cross-linking are highly effective and can be applied to a specific system depending on the target, e.g., biomedical or electronic applications. Keywords: poly(vinyl alcohol),poly[3-(potassium-5-butanoate)thiophene-2.5-diyl],electrospun nanofibers,cross-linking,fibrous hydrogel,semi-IPN Affiliations:
Zakrzewska A. | - | IPPT PAN | Zargarian S.S. | - | IPPT PAN | Rinoldi C. | - | IPPT PAN | Gradys A.D. | - | IPPT PAN | Jarząbek D.M. | - | IPPT PAN | Zanoni M. | - | other affiliation | Gualandi C. | - | University of Bologna (IT) | Lanzi M. | - | University of Bologna (IT) | Pierini F. | - | IPPT PAN |
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