Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling
This paper reports on the enhanced defect state emission from ZnS in the form of a random photonic crystal (RPC) medium. ZnS photonic crystals with varied randomness are fabricated by colloidal self assembly of ZnS nanospheres (215 ± 10 nm). Reflection and transmission studies reveal mid band gap wa...
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sg-ntu-dr.10356-1034432023-03-04T17:20:17Z Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling Bingi, Jayachandra Warrier, Anita R. Vijayan, C. Indian Institute of Technology Madras DRNTU::Science This paper reports on the enhanced defect state emission from ZnS in the form of a random photonic crystal (RPC) medium. ZnS photonic crystals with varied randomness are fabricated by colloidal self assembly of ZnS nanospheres (215 ± 10 nm). Reflection and transmission studies reveal mid band gap wavelength at ∼435 nm. The band structure calculated for BCC lattice with reduced packing fraction (53%) is in good agreement with experimental results. The reflection due to the photonic band gap diminishes with increased randomness in the nanosphere arrangement. The features of fluorescence from ZnS are modified in the RPC medium, resulting in suppression at wavelengths in the photonic band gap region and an enhancement at band edge wavelengths of 415 and 468 nm. This enhancement becomes less prominent with increasing randomness in the structure. Interestingly these two modes correspond to the electronic defect states of ZnS. Emission enhancement is shown to be due to the strong coupling of electronic defect states and photonic band edge states which is facilitated by randomly scattering slow Bloch modes in the ZnS RPC. Fabrication of RPCs by colloidal self-assembly with specifically designed degrees of randomness (leading to controllable features of emission) provides scope for the design of low threshold random lasing systems. Accepted version 2015-06-05T10:06:54Z 2019-12-06T21:12:48Z 2015-06-05T10:06:54Z 2019-12-06T21:12:48Z 2014 2014 Journal Article Bingi, J., Warrier, A. R., & Vijayan, C. (2014). Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling. Journal of applied physics, 115(4), 043105-. https://hdl.handle.net/10356/103443 http://hdl.handle.net/10220/25797 10.1063/1.4862927 en Journal of applied physics © 2014 American Institute of Physics (AIP). This is the author created version of a work that has been peer reviewed and accepted for publication by Journal of Applied Physics, American Institute of Physics (AIP). It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1063/1.4862927]. application/pdf |
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DRNTU::Science Bingi, Jayachandra Warrier, Anita R. Vijayan, C. Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| description |
This paper reports on the enhanced defect state emission from ZnS in the form of a random photonic crystal (RPC) medium. ZnS photonic crystals with varied randomness are fabricated by colloidal self assembly of ZnS nanospheres (215 ± 10 nm). Reflection and transmission studies reveal mid band gap wavelength at ∼435 nm. The band structure calculated for BCC lattice with reduced packing fraction (53%) is in good agreement with experimental results. The reflection due to the photonic band gap diminishes with increased randomness in the nanosphere arrangement. The features of fluorescence from ZnS are modified in the RPC medium, resulting in suppression at wavelengths in the photonic band gap region and an enhancement at band edge wavelengths of 415 and 468 nm. This enhancement becomes less prominent with increasing randomness in the structure. Interestingly these two modes correspond to the electronic defect states of ZnS. Emission enhancement is shown to be due to the strong coupling of electronic defect states and photonic band edge states which is facilitated by randomly scattering slow Bloch modes in the ZnS RPC. Fabrication of RPCs by colloidal self-assembly with specifically designed degrees of randomness (leading to controllable features of emission) provides scope for the design of low threshold random lasing systems. |
| author2 |
Indian Institute of Technology Madras |
| author_facet |
Indian Institute of Technology Madras Bingi, Jayachandra Warrier, Anita R. Vijayan, C. |
| format |
Article |
| author |
Bingi, Jayachandra Warrier, Anita R. Vijayan, C. |
| author_sort |
Bingi, Jayachandra |
| title |
Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| title_short |
Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| title_full |
Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| title_fullStr |
Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| title_full_unstemmed |
Enhancement of photoluminescence from defect states in ZnS random photonic crystal : an effect of electronic and photonic mode coupling |
| title_sort |
enhancement of photoluminescence from defect states in zns random photonic crystal : an effect of electronic and photonic mode coupling |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/103443 http://hdl.handle.net/10220/25797 |
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1759857462860578816 |