Cite
Mechanochemical and aging-based reductive amination with chitosan and aldehydes affords high degree of substitution functional biopolymers.
MLA
Yang, Galen, et al. “Mechanochemical and Aging-Based Reductive Amination with Chitosan and Aldehydes Affords High Degree of Substitution Functional Biopolymers.” Green Chemistry, vol. 26, no. 9, May 2024, pp. 5386–96. EBSCOhost, https://doi.org/10.1039/d4gc00127c.
APA
Yang, G., Régnier, S., Huin, N., Liu, T., Lam, E., & Moores, A. (2024). Mechanochemical and aging-based reductive amination with chitosan and aldehydes affords high degree of substitution functional biopolymers. Green Chemistry, 26(9), 5386–5396. https://doi.org/10.1039/d4gc00127c
Chicago
Yang, Galen, Sophie Régnier, Noah Huin, Tracy Liu, Edmond Lam, and Audrey Moores. 2024. “Mechanochemical and Aging-Based Reductive Amination with Chitosan and Aldehydes Affords High Degree of Substitution Functional Biopolymers.” Green Chemistry 26 (9): 5386–96. doi:10.1039/d4gc00127c.