Journal
MATERIALS LETTERS
Volume 302, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.matlet.2021.130411
Keywords
Luminescence; Semiconductors; Nanocrystalline materials; Porous silicon; TD-DFT
Funding
- CONACYT-SENER SUSTENTABILIDAD ENERG ETICA 2018, TIPO B
- PAPIIT [IG100320]
- [LAND CAD-UNAM-DGTIC-225]
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The experimental and theoretical analysis of the optical properties of novel coral-like luminescent porous silicon thin films were presented. The study successfully established a relationship between experimental and theoretical analysis for predicting the optical properties of complex and heterogeneous Si nanostructures.
In the present work, the relationship between experimental and theoretical analysis of optical properties of Sinanostructures is presented. Coral-like luminescent porous silicon (p-Si) thin films were synthesized, and the main photoluminescence peak was found at around 690 nm. Infrared spectroscopy revealed mainly the presence of Si-H and Si-O bonds. The structural characterization determined an average nanocrystal size of 5.4 nm. A model based on Si quantum dots (QDs) with sizes ranging from 1.0 to 2.2 nm by TD-DFT (PBE/6-31G) in the Gaussian-16 package was used to simulate p-Si nanostructures. Equations were proposed for QD-like morphology of p-Si to calculate absorption/emission energies that fit with experimental data with high accuracy. The present research will help to predict the optical properties of complex and heterogeneous Si nanostructures.
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