Effect of thermal annealing on the optical and morphological properties of(AETH)PbX4 (X = Br, I) perovskite films prepared using single source thermal ablation

Citation
K. Chondroudis et al., Effect of thermal annealing on the optical and morphological properties of(AETH)PbX4 (X = Br, I) perovskite films prepared using single source thermal ablation, CHEM MATER, 12(1), 2000, pp. 169-175
Citations number
24
Categorie Soggetti
Apllied Physucs/Condensed Matter/Materiales Science","Material Science & Engineering
Journal title
CHEMISTRY OF MATERIALS
ISSN journal
08974756 → ACNP
Volume
12
Issue
1
Year of publication
2000
Pages
169 - 175
Database
ISI
SICI code
0897-4756(200001)12:1<169:EOTAOT>2.0.ZU;2-9
Abstract
Films of the new organic-inorganic hybrid materials AETHPbX(4) (AETH = 1,6- bis[5'-(2"aminoethyl)-2'-thienyl]hexane; X =Br, I) were fabricated. using s ingle source thermal ablation (SSTA). The as-deposited films were optically smooth and nominally amorphous. The progressive effects of annealing on th e structural, optical, and morphological properties of the films were monit ored using powder X-ray diffraction, optical spectroscopy, and atomic force microscopy (AFM). Short duration postdeposition annealing at mild temperat ures resulted in well-crystallized films of the AETHPbX4 hybrid perovskites . It was found that up to some critical annealing temperature (similar to 1 20 degrees C), the emission wavelength and the exciton absorption of the co mpounds shifted! to lower energies as the annealing temperature increased. As confirmed with AFM measurements, this shift in optical properties sugges ts a gradual increase of the grain size with annealing temperature. When th e samples were annealed at higher temperatures (> 180 degrees C:) their sur face morphology changed dramatically, yielding much rougher surfaces due to substantial grain growth and partial decomposition of the framework (with subsequent loss of the organic component). This work demonstrates that the SSTA method can be combined with postdeposition annealing to fabricate good quality, crystalline organic-inorganic perovskite thin films containing co mplex organic cations.