(28)  Khan, M. J.; Shameli, K.; Sazili, A. Q.; Selamat, J.; Kumari, S. Rapid Green Synthesis and Characterization
        of Silver Nanoparticles Arbitrated by Curcumin in an Alkaline Medium. Molecules 2019, Vol. 24, Page 719
        2019, 24 (4), 719. https://doi.org/10.3390/MOLECULES24040719.
  (29)  El-Kattan, N.; Emam, A. N.; Mansour, A. S.; Ibrahim, M. A.; Abd El-Razik, A. B.; Allam, K. A. M.; Riad, N. Y.;
        Ibrahim,  S. A.  Curcumin Assisted  Green  Synthesis  of  Silver  and  Zinc  Oxide  Nanostructures  and  Their
        Antibacterial Activity against Some Clinical Pathogenic Multi-Drug Resistant Bacteria. RSC Adv 2022, 12
        (28), 18022–18038. https://doi.org/10.1039/D2RA00231K.

  (30)  Liu, Y.; Jiang, G.; Li, L.; Chen, H.; Huang, Q.; Jiang, T.; Du, X. Silver Nanoparticles Supported on Electrospun
        Polyacrylonitrile  Nanofibrous  Mats  for  Catalytic  Applications.  MRS  Commun  2016,  6  (1),  31–40.
        https://doi.org/10.1557/MRC.2015.85/FIGURES/TAB1.
  (31)  Borjigin, M.; Eskridge, C.; Niamat, R.; Strouse, B.; Bialk, P.; Kmiec, E. B. Electrospun Fiber Membranes
        Enable  Proliferation  of  Genetically  Modified  Cells.  Int  J  Nanomedicine  2013,  8  (1),  855–864.
        https://doi.org/10.2147/IJN.S40117.

  (32)  Elzein, T.;  Nasser-Eddine,  M.;  Delaite,  C.;  Bistac,  S.;  Dumas,  P.  FTIR  Study  of  Polycaprolactone  Chain
        Organization     at   Interfaces.   J     Colloid   Interface    Sci    2004,    273     (2),   381–387.
        https://doi.org/10.1016/J.JCIS.2004.02.001.

  (33)  Suárez, D. F.; Pinzón-García, A. D.; Sinisterra, R. D.; Dussan, A.; Mesa, F.; Ramírez-Clavijo, S. Uniaxial and
        Coaxial Nanofibers PCL/Alginate or PCL/Gelatine Transport and Release Tamoxifen and Curcumin Affecting
        the     Viability   of    MCF7       Cell    Line.     Nanomaterials     2022,     12     (19),    3348.
        https://doi.org/10.3390/NANO12193348/S1.
  (34)  Sheng, Z.; Xu, Y.; Tong, Z.; Mao, Z.; Zheng, Y. Dual Functional Electrospun Nanofiber Membrane with ROS
        Scavenging and Revascularization Ability for Diabetic Wound Healing. Colloid Interface Sci Commun 2022,
        48, 100620. https://doi.org/10.1016/J.COLCOM.2022.100620.

  (35)  Pazos-Ortiz,  E.;  Roque-Ruiz,  J.  H.;  Hinojos-Márquez,  E.  A.;  López-Esparza,  J.;  Donohué-Cornejo,  A.;
        Cuevas-González, J. C.; Espinosa-Cristóbal, L. F.; Reyes-López, S. Y. Dose-Dependent Antimicrobial Activity
        of Silver Nanoparticles on Polycaprolactone Fibers against Gram-Positive and Gram-Negative Bacteria. J
        Nanomater 2017, 2017. https://doi.org/10.1155/2017/4752314.
  (36)  Pourmadadi,  M.;  Ajalli,  N.;  Yazdian,  F.;  Abdouss,  M.;  Rashedi,  H.;  Rahdar,  A.  PVA  Based  Nanofiber
        Containing  GO  Modified  with  Cu  Nanoparticles  and  Loaded  Curcumin;  High  Antibacterial  Activity  with
        Acceleration        Wound          Healing.        Curr        Drug         Deliv       2022,         20.
        https://doi.org/10.2174/1567201820666221014090334.

  (37)  Yang,  X.;  Zhang, Y.;  Huang,  C.;  Lu,  L.;  Chen,  J.;  Weng, Y.  Biomimetic  Hydrogel  Scaffolds  with  Copper
        Peptide-Functionalized RADA16 Nanofiber Improve Wound Healing in Diabetes. Macromol Biosci 2022, 22
        (8), 2200019. https://doi.org/10.1002/MABI.202200019.