Electric field effects on optical properties of semiconductor nanorods

Gurinovich L.I.; Lutich, A.A.; Stupak, A.P.; Prislopskii, S.Va.; Artemyev, M.V.; Rusakov, E.K.; Demir, Hilmi Volkan

View / Download
68.6 Kb

Author

Gurinovich L.I.

Lutich, A.A.

Stupak, A.P.

Prislopskii, S.Va.

Artemyev, M.V.

Rusakov, E.K.

Demir, Hilmi Volkan

Date

2009

Source Title

Physics, Chemistry and Application of Nanostructures - Proceedings of the International Conference, NANOMEETING 2009

Pages

132 - 135

Language

English

Abstract

We studied electric field effects on optical properties of CdSe/ZnS nanorods integrated in thin films sandwiched between transparent electrodes. It was demonstrated that P-polarized component of the photoluminescence of CdSelZnS nanorods is quenched stronger by external electric field than the S-polarized component. Quantum dots are more sensitive to external electric field than the nanorods. A mechanism of external electric field influence on the luminescence spectrum of semiconductor nanorods is discussed.

Keywords

CdSe/ZnS
External electric field
Luminescence spectrum
P-polarized
S-polarized
Semiconductor nanorods
Transparent electrode
Angle measurement
Nanorods
Optical properties
Electric field effects

Permalink

http://hdl.handle.net/11693/28640