A metastable brominated nanodiamond surface enables room temperature and catalysis-free amine chemistry

MLA

Cynthia Melendrez, et al. A Metastable Brominated Nanodiamond Surface Enables Room Temperature and Catalysis-Free Amine Chemistry. Jan. 2022. EBSCOhost, https://doi.org/10.26434/chemrxiv-2022-xzxmr.

APA

Cynthia Melendrez, Jorge Lopez-Rosas, Camron Stokes, Tsz Cheung, Sang-Jun Lee, Charles Titus, Jocelyn Valenzuela, Grace Jeanpierre, Halim Muhammad, Polo Tran, Perla Sandoval, Tyanna Supreme, Virginia Altoe, Jan Vavra, Helena Raabova, Vaclav Vanek, Sami Sainio, William Doriese, Galen O’Neil, … Abraham Wolcott. (2022). A metastable brominated nanodiamond surface enables room temperature and catalysis-free amine chemistry. https://doi.org/10.26434/chemrxiv-2022-xzxmr

Chicago

Cynthia Melendrez, Jorge Lopez-Rosas, Camron Stokes, Tsz Cheung, Sang-Jun Lee, Charles Titus, Jocelyn Valenzuela, et al. 2022. “A Metastable Brominated Nanodiamond Surface Enables Room Temperature and Catalysis-Free Amine Chemistry,” January. doi:10.26434/chemrxiv-2022-xzxmr.