APA
Ramachandran K., Di Luccio T., Ailianou A., Kossuth M. B., Oberhauser J. P. & Kornfield J. A. (20181116). Crimping-induced structural gradients explain the lasting strength of poly l-lactide bioresorbable vascular scaffolds during hydrolysis. : Proceedings of the National Academy of Sciences of the United States of America.
Chicago
Ramachandran Karthik, Di Luccio Tiziana, Ailianou Artemis, Kossuth Mary Beth, Oberhauser James P and Kornfield Julia A. 20181116. Crimping-induced structural gradients explain the lasting strength of poly l-lactide bioresorbable vascular scaffolds during hydrolysis. : Proceedings of the National Academy of Sciences of the United States of America.
Harvard
Ramachandran K., Di Luccio T., Ailianou A., Kossuth M. B., Oberhauser J. P. and Kornfield J. A. (20181116). Crimping-induced structural gradients explain the lasting strength of poly l-lactide bioresorbable vascular scaffolds during hydrolysis. : Proceedings of the National Academy of Sciences of the United States of America.
MLA
Ramachandran Karthik, Di Luccio Tiziana, Ailianou Artemis, Kossuth Mary Beth, Oberhauser James P and Kornfield Julia A. Crimping-induced structural gradients explain the lasting strength of poly l-lactide bioresorbable vascular scaffolds during hydrolysis. : Proceedings of the National Academy of Sciences of the United States of America. 20181116.