APA
Gauden M., Pezzella A., Panzella L., Neves-Petersen M. T., Skovsen E., Petersen S. B., Mullen K. M., Napolitano A., d'Ischia M. & Sundström V. (20090206). Role of solvent, pH, and molecular size in excited-state deactivation of key eumelanin building blocks: implications for melanin pigment photostability. : Journal of the American Chemical Society.
Chicago
Gauden M, Pezzella A, Panzella L, Neves-Petersen M T, Skovsen E, Petersen S B, Mullen K M, Napolitano A, d'Ischia M and Sundström V. 20090206. Role of solvent, pH, and molecular size in excited-state deactivation of key eumelanin building blocks: implications for melanin pigment photostability. : Journal of the American Chemical Society.
Harvard
Gauden M., Pezzella A., Panzella L., Neves-Petersen M. T., Skovsen E., Petersen S. B., Mullen K. M., Napolitano A., d'Ischia M. and Sundström V. (20090206). Role of solvent, pH, and molecular size in excited-state deactivation of key eumelanin building blocks: implications for melanin pigment photostability. : Journal of the American Chemical Society.
MLA
Gauden M, Pezzella A, Panzella L, Neves-Petersen M T, Skovsen E, Petersen S B, Mullen K M, Napolitano A, d'Ischia M and Sundström V. Role of solvent, pH, and molecular size in excited-state deactivation of key eumelanin building blocks: implications for melanin pigment photostability. : Journal of the American Chemical Society. 20090206.