Room-temperature ultraviolet laser emission from ZnO hexagonal microprisms and nanowires
Abstract
We report the observation of optically pumped laser generation in ZnO microprisms and nanowires at room temperature. The ZnO microprisms were grown on the single crystal (100) silicon substrates by a solid-vapor-phase process. The ZnO nanowires were grown on a glass substrate coated with indium tin oxide by the electrochemical deposition. Laser effect was observed at room temperature at the optically pump power higher than 685 kW cm–2 for ZnO microprisms and 560 kW cm–2 — for ZnO nanowires.
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References
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2. Huang M., Mao S., Feiick H., Yan H., Wu Y., King H., Waber E., Russo R., Yang P. Room- Temperature Ultraviolet Nanowire Nanolasers // Science. — 2001. — Vol. 292. — P. 1897– 1899.
3. Cao H., Xu J., Seelig E., Chang R. Microlaser Made of Disordered Media // Appl. Phys. Letters. — 2000. — Vol. 76. — P. 2997–2999.
4. Tang Z., Wong G., Yu P., Kawasaki M., Ohmoto A., Koinura H., Segawa Y. Room- Temperature Ultraviolet Laser Emission from Self-Assembled ZnO Microcrystallite Thin Films // Appl. Phys. Letters. — 1998. — Vol. 72. — P. 3270–3272.
5. Gruzintsev A., Redkin A., Yakimov E., Barthou C. Edge Luminescence of ZnO Nanorods on High-Intensity Optical Excitation // Semiconductors. — 2008. — Vol. 42. — P. 1092– 1097.
6. Lupan O., Shishiyanu S., Chow L., Shi shiyanu T. Nanostructured Zinc Oxide Gas Sensors by Successive Ionic Layer Adsorption and Reaction Method and Rapid Photothermal Processing // Thin Solid Films. — 2008. — Vol. 516. — P. 3338–3345.
7. Kapustianyk V., Turko B., Luzinov I., Rudyk V., Tsybulskyi V., Malynych S., Rudyk Yu., Savchak M. LEDs Based on P-Type ZnO Nanowires Synthesized by Electrochemical Deposition Method // Phys. Status Solidi C. — 2014. — Vol. 11, No. 9. — P. 1501–1504.
8. Ozgur U., Alivov Y., Liu C., Teke A., Reshchikov M., Doğan S., Avrutin V., Cho S., Morkoc H. A. Comprehensive Review of ZnO Materials and Devices // J. Appl. Phys. — 2005. — Vol. 98. — P. 041301.
9. Kapustianyk V., Panasiuk M., Lubochkova G., Turko B., Rudyk V., Partyka M., Serkiz R., Voznyuk D. Exciton Spectra of the Nanostructured Zinc Oxide // J. of Physical Studies. — 2008. — Vol. 12. — P. 2602.
10. Kapustianyk V., Panasiuk M., Turko B., Lubochkova G., Serkiz R., Dubov Y. The Nature of ZnO Nanostructure Photoluminescence // Physics and Chemistry of Solid State. — 2009. — Vol. 10. — P. 112–115.
11. Lim J., Kang C., Kim K., Park I., Hwang D., Park S. UV Electroluminescence Emission from ZnO Light-Emitting Diodes Grown by High Temperature Radiofrequency Sputtering // Adv. Mater. — 2006. — Vol. 18. — P. 2720– 2724.
12. Gruzintsev A., Redkin A., Barthou C. Dependence of the Stimulated Luminescence Threshold in ZnO Nanocrystals on Their Geometric Shape // Semiconductors. — 2010. — Vol. 44. — P. 628–633.
13. Bagnal D., Chen Y., Zhu Z., Yao T., Koyama S., Shen M., Goto T. Optically Pumped Lasing of ZnO at Room Temperature // Appl. Phys. Letters. —1997. — Vol. 70. — P. 2230–2232.
14. Gruzintsev A., Redkin A., Emelchenko G., Barthou C., Benalloul P. Stimulated Luminescence of ZnO Nanocrystals of Different Shape Grown by the Method of Gas Transport // J. Opt. A: Pure Appl. Opt. — 2006. — Vol. 8. — P. 148–152.
15. Chen Y., Chen Y. Enhanced Random Lasing in ZnO Nanocombs Assisted by Fabry-Perot Resonance // Optics Express. — 2011. — Vol. 19. — P. 8728–8734.
Published
2015-12-04
How to Cite
Kapustianyk, V., Turko, B., Rudyk, Y., Tsybulskyi, V., Rudyk, V., & Vaskiv, A. (2015). Room-temperature ultraviolet laser emission from ZnO hexagonal microprisms and nanowires. Journal of Surface Physics and Engineering, 13(2), 169 -. Retrieved from https://periodicals.karazin.ua/pse/article/view/4555
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