RodrÃguez Pozo, F.R.; Ianev, D.; MartÃnez RodrÃguez, T.; Arias, J.L.; Linares, F.; Gutiérrez Ariza, C.M.; Valentino, C.; Arrebola Vargas, F.; Hernández Benavides, P.; Paredes, J.M.;
et al. Development of Halloysite Nanohybrids-Based Films: Enhancing Mechanical and Hydrophilic Properties for Wound Healing. Pharmaceutics 2024, 16, 1258.
https://doi.org/10.3390/pharmaceutics16101258
AMA Style
RodrÃguez Pozo FR, Ianev D, MartÃnez RodrÃguez T, Arias JL, Linares F, Gutiérrez Ariza CM, Valentino C, Arrebola Vargas F, Hernández Benavides P, Paredes JM,
et al. Development of Halloysite Nanohybrids-Based Films: Enhancing Mechanical and Hydrophilic Properties for Wound Healing. Pharmaceutics. 2024; 16(10):1258.
https://doi.org/10.3390/pharmaceutics16101258
Chicago/Turabian Style
RodrÃguez Pozo, Francisco Ramón, Daiana Ianev, Tomás MartÃnez RodrÃguez, José L. Arias, Fátima Linares, Carlos Miguel Gutiérrez Ariza, Caterina Valentino, Francisco Arrebola Vargas, Pablo Hernández Benavides, José Manuel Paredes,
and et al. 2024. "Development of Halloysite Nanohybrids-Based Films: Enhancing Mechanical and Hydrophilic Properties for Wound Healing" Pharmaceutics 16, no. 10: 1258.
https://doi.org/10.3390/pharmaceutics16101258
APA Style
RodrÃguez Pozo, F. R., Ianev, D., MartÃnez RodrÃguez, T., Arias, J. L., Linares, F., Gutiérrez Ariza, C. M., Valentino, C., Arrebola Vargas, F., Hernández Benavides, P., Paredes, J. M., Medina Pérez, M. d. M., Rossi, S., Sandri, G., & Aguzzi, C.
(2024). Development of Halloysite Nanohybrids-Based Films: Enhancing Mechanical and Hydrophilic Properties for Wound Healing. Pharmaceutics, 16(10), 1258.
https://doi.org/10.3390/pharmaceutics16101258