Integrating crystallographic and computational approaches to carbon-capture materials for the mitigation of climate change.

MLA

Cockayne, Eric, et al. “Integrating Crystallographic and Computational Approaches to Carbon-Capture Materials for the Mitigation of Climate Change.” Journal of Materials Chemistry A, vol. 12, no. 38, Oct. 2024, pp. 25678–95. EBSCOhost, https://doi.org/10.1039/d4ta04136d.

APA

Cockayne, E., McDannald, A., Wong-Ng, W., Chen, Y.-S., Benedict, J., Gándara Barragán, F., Hendon, C. H., Keen, D. A., Kolb, U., Li, L., Ma, S., Morris, W., Nandy, A., Runčevski, T., Soukri, M., Sriram, A., Steckel, J. A., Findley, J., Wilmer, C., & Yildirim, T. (2024). Integrating crystallographic and computational approaches to carbon-capture materials for the mitigation of climate change. Journal of Materials Chemistry A, 12(38), 25678–25695. https://doi.org/10.1039/d4ta04136d

Chicago

Cockayne, Eric, Austin McDannald, Winnie Wong-Ng, Yu-Sheng Chen, Jason Benedict, Felipe Gándara Barragán, Christopher H. Hendon, et al. 2024. “Integrating Crystallographic and Computational Approaches to Carbon-Capture Materials for the Mitigation of Climate Change.” Journal of Materials Chemistry A 12 (38): 25678–95. doi:10.1039/d4ta04136d.