Excitonic contribution on light emitting properties of nanosilicon
A phenomenological model is developed by integrati ng the effect of excitonic energy states, localized surface states and quantum confin ement (QC) to obtain an analytical expression for the room temperature photoluminescence (PL) int ensity. We calculate the binding energy of strongly confined...
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2011
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my.utm.458412017-07-12T08:14:24Z http://eprints.utm.my/id/eprint/45841/ Excitonic contribution on light emitting properties of nanosilicon Ghoshal, Sib Krishna Sahar, M. R. Rohani, M. S. Q Science (General) A phenomenological model is developed by integrati ng the effect of excitonic energy states, localized surface states and quantum confin ement (QC) to obtain an analytical expression for the room temperature photoluminescence (PL) int ensity. We calculate the binding energy of strongly confined excitons in silicon (Si) quantum dots (QD) having sizes 1 to 7.75 nm to examine its contribution on optical band gap and el ectronic properties. The band gap with excitonic contribution is found to decrease as much as 0.23 eV for the smallest dot. The effect of exciton states explains almost accurately the exper imental PL data. Our model provides the mechanism for controlling the PL intensity through fitting parameters. Huge excitonic effects, which depend strongly on QD size and shape, charact erize the optical spectra. The results for the size dependence of the optical band gap, the PL int ensity, and oscillator strength are presented the role excitonic effects on optical and electroni c properties are discussed. 2011 Conference or Workshop Item PeerReviewed Ghoshal, Sib Krishna and Sahar, M. R. and Rohani, M. S. (2011) Excitonic contribution on light emitting properties of nanosilicon. In: The International Conference For Nanomaterials Synthesis And Characterization (Insc 2011). http://apps.webofknowledge.com.ezproxy.utm.my/full_record.do?product=WOS&search_mode=GeneralSearch&qid=12&SID=Q1ZRuJhVlPnnzCnjYaH&page=1&doc=1 |
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Q Science (General) Ghoshal, Sib Krishna Sahar, M. R. Rohani, M. S. Excitonic contribution on light emitting properties of nanosilicon |
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A phenomenological model is developed by integrati ng the effect of excitonic energy states, localized surface states and quantum confin ement (QC) to obtain an analytical expression for the room temperature photoluminescence (PL) int ensity. We calculate the binding energy of strongly confined excitons in silicon (Si) quantum dots (QD) having sizes 1 to 7.75 nm to examine its contribution on optical band gap and el ectronic properties. The band gap with excitonic contribution is found to decrease as much as 0.23 eV for the smallest dot. The effect of exciton states explains almost accurately the exper imental PL data. Our model provides the mechanism for controlling the PL intensity through fitting parameters. Huge excitonic effects, which depend strongly on QD size and shape, charact erize the optical spectra. The results for the size dependence of the optical band gap, the PL int ensity, and oscillator strength are presented the role excitonic effects on optical and electroni c properties are discussed. |
| format |
Conference or Workshop Item |
| author |
Ghoshal, Sib Krishna Sahar, M. R. Rohani, M. S. |
| author_facet |
Ghoshal, Sib Krishna Sahar, M. R. Rohani, M. S. |
| author_sort |
Ghoshal, Sib Krishna |
| title |
Excitonic contribution on light emitting properties of nanosilicon |
| title_short |
Excitonic contribution on light emitting properties of nanosilicon |
| title_full |
Excitonic contribution on light emitting properties of nanosilicon |
| title_fullStr |
Excitonic contribution on light emitting properties of nanosilicon |
| title_full_unstemmed |
Excitonic contribution on light emitting properties of nanosilicon |
| title_sort |
excitonic contribution on light emitting properties of nanosilicon |
| publishDate |
2011 |
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http://eprints.utm.my/id/eprint/45841/ http://apps.webofknowledge.com.ezproxy.utm.my/full_record.do?product=WOS&search_mode=GeneralSearch&qid=12&SID=Q1ZRuJhVlPnnzCnjYaH&page=1&doc=1 |
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1643651859982843904 |
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13.18916 |