Quantitative kinetics reveal that reactions of HO2 are a significant sink for aldehydes in the atmosphere and may initiate the formation of highly oxygenated molecules via autoxidation.

MLA

Gao, Qiao, et al. “Quantitative Kinetics Reveal That Reactions of HO2 Are a Significant Sink for Aldehydes in the Atmosphere and May Initiate the Formation of Highly Oxygenated Molecules via Autoxidation.” Physical Chemistry Chemical Physics (PCCP), vol. 26, no. 22, June 2024, pp. 16160–74. EBSCOhost, https://doi.org/10.1039/d4cp00693c.

APA

Gao, Q., Shen, C., Zhang, H., Long, B., & Truhlar, D. G. (2024). Quantitative kinetics reveal that reactions of HO2 are a significant sink for aldehydes in the atmosphere and may initiate the formation of highly oxygenated molecules via autoxidation. Physical Chemistry Chemical Physics (PCCP), 26(22), 16160–16174. https://doi.org/10.1039/d4cp00693c

Chicago

Gao, Qiao, Chuanyang Shen, Haofei Zhang, Bo Long, and Donald G. Truhlar. 2024. “Quantitative Kinetics Reveal That Reactions of HO2 Are a Significant Sink for Aldehydes in the Atmosphere and May Initiate the Formation of Highly Oxygenated Molecules via Autoxidation.” Physical Chemistry Chemical Physics (PCCP) 26 (22): 16160–74. doi:10.1039/d4cp00693c.