Herrera Hernández, H.; González Morán, C.O.; Lara Hernández, G.; RamÃrez-León, I.Z.; Trujillo Romero, C.J.; Alcántara Cárdenas, J.A.; Flores Cuautle, J.d.J.A.
Electrospinning Technology to Influence Hep-G2 Cell Growth on PVDF Fiber Mats as Medical Scaffolds: A New Perspective of Advanced Biomaterial. J. Compos. Sci. 2025, 9, 401.
https://doi.org/10.3390/jcs9080401
AMA Style
Herrera Hernández H, González Morán CO, Lara Hernández G, RamÃrez-León IZ, Trujillo Romero CJ, Alcántara Cárdenas JA, Flores Cuautle JdJA.
Electrospinning Technology to Influence Hep-G2 Cell Growth on PVDF Fiber Mats as Medical Scaffolds: A New Perspective of Advanced Biomaterial. Journal of Composites Science. 2025; 9(8):401.
https://doi.org/10.3390/jcs9080401
Chicago/Turabian Style
Herrera Hernández, Héctor, Carlos O. González Morán, Gemima Lara Hernández, Ilse Z. RamÃrez-León, Citlalli J. Trujillo Romero, Juan A. Alcántara Cárdenas, and Jose de Jesus Agustin Flores Cuautle.
2025. "Electrospinning Technology to Influence Hep-G2 Cell Growth on PVDF Fiber Mats as Medical Scaffolds: A New Perspective of Advanced Biomaterial" Journal of Composites Science 9, no. 8: 401.
https://doi.org/10.3390/jcs9080401
APA Style
Herrera Hernández, H., González Morán, C. O., Lara Hernández, G., RamÃrez-León, I. Z., Trujillo Romero, C. J., Alcántara Cárdenas, J. A., & Flores Cuautle, J. d. J. A.
(2025). Electrospinning Technology to Influence Hep-G2 Cell Growth on PVDF Fiber Mats as Medical Scaffolds: A New Perspective of Advanced Biomaterial. Journal of Composites Science, 9(8), 401.
https://doi.org/10.3390/jcs9080401