Ultra-High-Field 67Zn and 33S NMR Studies Coupled with DFT Calculations Reveal the Structure of ZnS Nanoplatelets Prepared by an Organometallic Approach

MLA

Bellan, Ekaterina, et al. “Ultra-High-Field 67Zn and 33S NMR Studies Coupled with DFT Calculations Reveal the Structure of ZnS Nanoplatelets Prepared by an Organometallic Approach.” The Journal of Physical Chemistry - Part C, vol. 127, no. 36, Sept. 2023, pp. 17809–19. EBSCOhost, https://doi.org/10.1021/acs.jpcc.3c02754.

APA

Bellan, E., Maleki, F., Jakoobi, M., Fau, P., Fajerwerg, K., Lagarde, D., Balocchi, A., Lecante, P., Trébosc, J., Xu, Y., Gan, Z., Pautrot-d, A. L., Le Mercier, T., Nagashima, H., Pacchioni, G., Lafon, O., Coppel, Y., & Kahn, M. L. (2023). Ultra-High-Field 67Zn and 33S NMR Studies Coupled with DFT Calculations Reveal the Structure of ZnS Nanoplatelets Prepared by an Organometallic Approach. The Journal of Physical Chemistry - Part C, 127(36), 17809–17819. https://doi.org/10.1021/acs.jpcc.3c02754

Chicago

Bellan, Ekaterina, Farahnaz Maleki, Martin Jakoobi, Pierre Fau, Katia Fajerwerg, Delphine Lagarde, Andrea Balocchi, et al. 2023. “Ultra-High-Field 67Zn and 33S NMR Studies Coupled with DFT Calculations Reveal the Structure of ZnS Nanoplatelets Prepared by an Organometallic Approach.” The Journal of Physical Chemistry - Part C 127 (36): 17809–19. doi:10.1021/acs.jpcc.3c02754.