Issue 37, 2019

Low-dimensional perovskite nanoplatelet synthesis using in situ photophysical monitoring to establish controlled growth

Abstract

Perovskite nanoparticles have attracted the attention of research groups around the world for their impressive photophysical properties, facile synthesis and versatile surface chemistry. Here, we report a synthetic route that takes advantage of a suite of soluble precursors to generate CsPbBr3 perovskite nanoplatelets with fine control over size, thickness and optical properties. We demonstrate near unit cell precision, creating well characterized materials with sharp, narrow emission lines at 430, 460 and 490 nm corresponding to nanoplatelets that are 2, 4, and 6 unit cells thick, respectively. Nanoplatelets were characterized with optical spectroscopy, atomic force microscopy, scanning electron microscopy and transmission electron microscopy to explicitly correlate growth conditions, thickness and resulting photophysical properties. Detailed in situ photoluminescence spectroscopic studies were carried out to understand and optimize particle growth by correlating light emission with nanoplatelet growth across a range of synthetic conditions. It was found that nanoplatelet thickness and emission wavelength increase as the ratio of oleic acid to oleyl amine or the reaction temperature is increased. Using this information, we control the lateral size, width and corresponding emission wavelength of the desired nanoplatelets by modulating the temperature and ratios of the ligand.

Graphical abstract: Low-dimensional perovskite nanoplatelet synthesis using in situ photophysical monitoring to establish controlled growth

Supplementary files

Article information

Article type
Paper
Submitted
11 máj 2019
Accepted
18 jún 2019
First published
18 jún 2019

Nanoscale, 2019,11, 17262-17269

Author version available

Low-dimensional perovskite nanoplatelet synthesis using in situ photophysical monitoring to establish controlled growth

M. Do, I. Kim, M. A. Kolaczkowski, J. Kang, G. A. Kamat, Z. Yuan, N. S. Barchi, L. Wang, Y. Liu, M. J. Jurow and C. M. Sutter-Fella, Nanoscale, 2019, 11, 17262 DOI: 10.1039/C9NR04010B

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