Cite
Reduction of (pddi)Cr reveals redox noninnocence via C-C bond formation amidst competing electrophilicity: [(cpta)CrMe n ] - ( n = 0, 1) and [(pta)Cr] .
MLA
D’Arpino, Alexander A., et al. “Reduction of (Pddi)Cr Reveals Redox Noninnocence via C-C Bond Formation amidst Competing Electrophilicity: [(Cpta)CrMe n ] - ( n = 0, 1) and [(Pta)Cr] .” Chemical Communications (Cambridge, England), vol. 60, no. 53, June 2024, pp. 6785–88. EBSCOhost, https://doi.org/10.1039/d4cc01690d.
APA
D’Arpino, A. A., Wolczanski, P. T., MacMillan, S. N., Cundari, T. R., & Krumov, M. R. (2024). Reduction of (pddi)Cr reveals redox noninnocence via C-C bond formation amidst competing electrophilicity: [(cpta)CrMe n ] - ( n = 0, 1) and [(pta)Cr] . Chemical Communications (Cambridge, England), 60(53), 6785–6788. https://doi.org/10.1039/d4cc01690d
Chicago
D’Arpino, Alexander A, Peter T Wolczanski, Samantha N MacMillan, Thomas R Cundari, and Mihail R Krumov. 2024. “Reduction of (Pddi)Cr Reveals Redox Noninnocence via C-C Bond Formation amidst Competing Electrophilicity: [(Cpta)CrMe n ] - ( n = 0, 1) and [(Pta)Cr] .” Chemical Communications (Cambridge, England) 60 (53): 6785–88. doi:10.1039/d4cc01690d.