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Tunability of the photoluminescence in porous silicon due to different polymer dielectric environments |
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| Authors: | Herman A Lopez X Linda Chen Samson A Jenekhe and Philippe M Fauchet |
| Institution: | a Materials Science Program, University of Rochester, Rochester, NY 14627, USA b Department of Chemical Engineering, University of Rochester, Rochester, NY 14627, USA c Department of Electrical and Computer Engineering, University of Rochester, Rochester, NY 14627, USA |
| Abstract: | In this report we demonstrate control over porous silicon (PSi) emission properties by changing the dielectric environment surrounding the silicon crystallites, as well as provide information on the effects of pore infiltration of PSi. This is achieved by making PSi–polymer nanocomposites by diffusing or polymerizing a range of varying dielectric constant polymers into the pores. The degree of modification in photoluminescence (PL) depends on the dielectric constant of the polymers. By increasing the dielectric constant of the environment surrounding the crystallites, a blue shift in PL as high as 222 meV has been observed. The blue shift is attributed to the high dielectric constant of the polymers relative to PSi, which causes a partial screening of the excitons allowing the excitonic levels to shift closer to the bandgap. The shift in excitonic levels increases when the dielectric constant of the polymer increases. PSi–polymer nanocomposites also exhibit an increase in PL intensity, which suggest that the inert infiltrated polymers are able to passivate existing nonradiative channels. |
| Keywords: | Porous silicon Photoluminescence Polymer Nanocomposite |
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