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Preparation and Characterization of Poly(Vinyl Pyrrolidone)/Cellulose Nanofiber/Aloe Vera Composites As a Biocompatible Hydrating Facial Mask Publisher Pubmed



Zand M1 ; Sepahvand S2 ; Khoshkhat P3 ; Chamani M3 ; Jonoobi M1 ; Ashori A4
Authors
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Authors Affiliations
  1. 1. Department of Wood and Paper Science and Technology, Faculty of Natural Resources, University College of Agriculture & Natural Resources, University of Tehran, Karaj, Iran
  2. 2. Department of Bio Systems, Faculty of New Technologies and Aerospace Engineering, Zirab Campus, Shahid Beheshti University, Tehran, Iran
  3. 3. Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Chemical Technologies, Iranian Research Organization for Science and Technology (IROST), Tehran, Iran

Source: International Journal of Biological Macromolecules Published:2024


Abstract

This study aimed to enhance the properties of polyvinylpyrrolidone (PVP) for use as biocompatible facial masks. To achieve this, nanofibers were developed by blending PVP with cellulose nanofibers (CNFs) and Aloe vera (AV) powder using electrospinning. The results showed that incorporating CNFs and AV into the PVP matrix led to the formation of smooth and uniform nanofibers. In particular, adding 3–6 wt% AV powder in PVP/CNF composites improved fiber diameter distribution and uniformity compared to pure PVP. The PVP/CNF/AV nanofibers exhibited desirable properties for facial mask applications. They displayed 86–93 % porosity, which allowed for efficient moisture absorption capacity of up to 1829 %, and excellent water vapor permeability rate of 3.92 g/m2h. The mechanical properties of the electrospun nanofiber composites were evaluated through tensile testing. The results showed that Young's modulus values decreased progressively with the addition of CNFs and AV powder to the PVP polymer matrix, indicating a plasticizing effect that enhances flexibility. The fracture strain remained similar across all composites, suggesting that CNFs and AV did not significantly weaken the PVP matrix. The tensile strength initially increased with CNF addition but decreased with incremental AV loading. Biocompatibility studies revealed that all nanofibers exhibited excellent fibroblast viability, surpassing 98 %. This indicates that incorporating CNFs and AV did not compromise cell viability, further highlighting the suitability of the PVP/CNF/AV composites for facial mask applications. © 2024 Elsevier B.V.
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