RodrÃguez MartÃnez, O.M.; Narváez Ramos, M.A.; Soto Acevedo, A.A.; Colón Colón, C.C.; Malavé Ramos, D.; Castro Rivera, C.; Castro Rosario, M.E.
pH-Selective Reactions to Selectively Reduce Cancer Cell Proliferation: Effect of CaS Nanostructures in Human Skin Melanoma and Benign Fibroblasts. BioChem 2023, 3, 15-30.
https://doi.org/10.3390/biochem3010002
AMA Style
RodrÃguez MartÃnez OM, Narváez Ramos MA, Soto Acevedo AA, Colón Colón CC, Malavé Ramos D, Castro Rivera C, Castro Rosario ME.
pH-Selective Reactions to Selectively Reduce Cancer Cell Proliferation: Effect of CaS Nanostructures in Human Skin Melanoma and Benign Fibroblasts. BioChem. 2023; 3(1):15-30.
https://doi.org/10.3390/biochem3010002
Chicago/Turabian Style
RodrÃguez MartÃnez, Olga M., Michelle A. Narváez Ramos, Angeliz A. Soto Acevedo, Carolina C. Colón Colón, Darlene Malavé Ramos, Coral Castro Rivera, and Miguel E. Castro Rosario.
2023. "pH-Selective Reactions to Selectively Reduce Cancer Cell Proliferation: Effect of CaS Nanostructures in Human Skin Melanoma and Benign Fibroblasts" BioChem 3, no. 1: 15-30.
https://doi.org/10.3390/biochem3010002
APA Style
RodrÃguez MartÃnez, O. M., Narváez Ramos, M. A., Soto Acevedo, A. A., Colón Colón, C. C., Malavé Ramos, D., Castro Rivera, C., & Castro Rosario, M. E.
(2023). pH-Selective Reactions to Selectively Reduce Cancer Cell Proliferation: Effect of CaS Nanostructures in Human Skin Melanoma and Benign Fibroblasts. BioChem, 3(1), 15-30.
https://doi.org/10.3390/biochem3010002
