Cite
How the Microstructure of MAPbI3Powder Impacts Pressure-Induced Compaction and Optoelectronic Thick-Film Properties
MLA
Witt, Christina, et al. “How the Microstructure of MAPbI3Powder Impacts Pressure-Induced Compaction and Optoelectronic Thick-Film Properties.” The Journal of Physical Chemistry - Part C, no. Preprints, Jan. 2022. EBSCOhost, https://doi.org/10.1021/acs.jpcc.2c03329.
APA
Witt, C., Leupold, N., Ramming, P., Schötz, K., Moos, R., & Panzer, F. (2022). How the Microstructure of MAPbI3Powder Impacts Pressure-Induced Compaction and Optoelectronic Thick-Film Properties. The Journal of Physical Chemistry - Part C, Preprints. https://doi.org/10.1021/acs.jpcc.2c03329
Chicago
Witt, Christina, Nico Leupold, Philipp Ramming, Konstantin Schötz, Ralf Moos, and Fabian Panzer. 2022. “How the Microstructure of MAPbI3Powder Impacts Pressure-Induced Compaction and Optoelectronic Thick-Film Properties.” The Journal of Physical Chemistry - Part C, no. Preprints (January). doi:10.1021/acs.jpcc.2c03329.