APA
Kumar A. A., Patton M. R., Hennek J. W., Lee S. Y. R., D'Alesio-Spina G., Yang X., Kanter J., Shevkoplyas S. S., Brugnara C. & Whitesides G. M. (20150430). Density-based separation in multiphase systems provides a simple method to identify sickle cell disease. : Proceedings of the National Academy of Sciences of the United States of America.
Chicago
Kumar Ashok A, Patton Matthew R, Hennek Jonathan W, Lee Si Yi Ryan, D'Alesio-Spina Gaetana, Yang Xiaoxi, Kanter Julie, Shevkoplyas Sergey S, Brugnara Carlo and Whitesides George M. 20150430. Density-based separation in multiphase systems provides a simple method to identify sickle cell disease. : Proceedings of the National Academy of Sciences of the United States of America.
Harvard
Kumar A. A., Patton M. R., Hennek J. W., Lee S. Y. R., D'Alesio-Spina G., Yang X., Kanter J., Shevkoplyas S. S., Brugnara C. and Whitesides G. M. (20150430). Density-based separation in multiphase systems provides a simple method to identify sickle cell disease. : Proceedings of the National Academy of Sciences of the United States of America.
MLA
Kumar Ashok A, Patton Matthew R, Hennek Jonathan W, Lee Si Yi Ryan, D'Alesio-Spina Gaetana, Yang Xiaoxi, Kanter Julie, Shevkoplyas Sergey S, Brugnara Carlo and Whitesides George M. Density-based separation in multiphase systems provides a simple method to identify sickle cell disease. : Proceedings of the National Academy of Sciences of the United States of America. 20150430.