| 光谱学与光谱分析 |
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| Native Defect Luminescence of Zinc Oxide Films and Its Potential Application as White Light Sources |
| LIU Shi1, CHEN Yong-jian1, CUI Hai-ning1*, SUN Sheng-nan1, WANG Zi-han1, WANG Hai-shui2 |
1. Department of Optical Information Science and Technology, College of Physics,College of Zhaoqing (526061), State Key Laboratory of Superhard Materials, Jilin University,Changchun 130021, China
2. School of Chemistry and Chemical Engineering, South China University of Technology,Guangzhou 510641, China |
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Abstract ZnO light-emitting diodes (LEDs) have an enormous potential in lighting applications. The major issue to be resolved is the generating and control of light emissions. This issue arises from the variation and combination in LED wavelength. We found that defect luminescence of ZnO has a varied wide range of wavelength, which suits to an application of LED for white-light generation. We have shown both experimentally and theoretically that defect emission can be used in ZnO systems. This type of defect has the advantage of not requiring extensive and costly factory systems comparing with traditional doped materials and others. We not only propose potential application of native defect luminescence of Zinc Oxide film for white LEDs-flat light sources, but also have some methods to control defect origins, a certain center position and broad range of the emission band of ZnO film in the initial stage. According to different preparing method and certain experiment conditions, variant white such as whitish and bluish-white etc., primary and important colors- blue bands (455, 458 nm), green bands (517, 548 nm), red bands (613, 569 nm) are obtained respectively. This proved that it is a better road to one white light LED with one kind of material -ZnO.
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Received: 2015-09-01
Accepted: 2015-12-30
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Corresponding Authors:
CUI Hai-ning
E-mail: cuihaining2009@126.com
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[1] Akcelrud L. Prog. Polym. Sci. 2003,28:875.
[2] Shufen C, Lingling D, Jun X, et al. Adv. Mater., 2010, 22: 5227.
[3] Gather M, K?hnen A, Meerholz K. Adv. Mater.,2011,23:233.
[4] Ma J, Piao X, Liu J, et al. Organic Electronics,2011,12:923.
[5] Panin G N, Kang T W, Lee H. Physica E,2004,21:1074.
[6] Ahn T K, Han S H, Lee H. Mol. Cryst. Liq. Cryst.,2002,377:391.
[7] Ahn T K, Choi B S, Ahn S H, et al. Synthetic Metals,2011,117:219.
[8] Kim D Y, Lee S K, Kim J L, et al. Synthetic Metals,2001,121:1707.
[9] Ahn T K, Lee H, Han S H. Appl. Phys. Lett.,2002,80:392.
[10] Micheletto R, Yoshimatsu N, Yokokawa M, et al. Optics Communications,2001,196:47.
[11] Cui H N, Teixeira V, Zhang J, et al. Thin Solid Films,2006,515:301.
[12] Cui H N, Lee H. Mol. Cryst. Liq. Cryst.,2000,349:475.
[13] Cui H N, Lee H. Synthetic. Metals,2001,117(1-3):255.
[14] Schubert E Fred. Light-Emitting Diodes. Cambridge University,2006. 422.
[15] Steranka F. Opto & Laser Europe,2003.
[16] Cook M. Review,2006,29(5):22.
[17] Stath N, et.al. Materials Science and Engineering,2001,B80(1-3):224.
[18] Akasaki I. J. of Cryst. Growth,2002,237-239(4):905.
[19] María B, Tortosa M, Mollar M, et al. Optical Materials,2010,32:1423.
[20] Cui H N, Teixeira V, Meng L J, et al. Thin Solid Films,2008,516:1484.
[21] Cui H N. Optical Multilayered Coatings for Application of Smart Windows, Subtitle-Preparation and Characterization. VDM Publishing House Ltd. Germany,2009.
[22] Teixeira V, Cui H N, Meng L J, et al. Thin Solid Films,2002,420-421:70.
[23] Cui H N, Xi S Q. Thin Solid Films,1996,288:325.
[24] Cui H N, Jia S, Meng L J, et al. Mikrochimica Acta,2004,145:19.
[25] María B, Tortosa M, Mollar M, et al. Optical Materials,2010,32:1423.
[26] Teixeira V, Cui H N, Meng L J, et al. Thin Solid Films,2002,420-421:70.
[27] Cembrero J, Elmanouni A, Hartiti B, et al. Thin Solid Films,2004,451-452:198.
[28] Lee H S, Lee N, Lee H W, et al. Mol. Cryst. Liq. Cryst., 2002,377:25.
[29] Manjón F J, Hernández-Fenollosa M A, Marí B, et al. The European Physical Journal B,2004,40:453.
[30] Whitaker T. Innovations Push White LEDs Towards New Applications. Compound Semiconductor,2003.
[31] Detchprohm T, Hiramatsu K, Amano H, et al. Appl. Phys. Lett.,1992,61:2688.
[32] Xiao R F, Sun X W, Liao H B, et al. J. Appl. Phys.,1996,80:4226.
[33] Ryu Y R, Lee T S, Lubguban J A, et al. Appl. Phys. Lett.,2006,88:241108.
[34] Yan Y F, Li J B, Wei S H, et al. Phys. Rev. Lett.,2007,98:135506.
[35] Hernández M A, Damonte L C, Marí B. Superlattices and Microstructures,2005,38:336.
[36] Damonte L C, Hernández M A, Marí B. Journal of Alloys and Compounds, 2007,434-435:813.
[37] Bradley D C. Chem. Brit.,1991,27:719.
[38] Ryu Y R, Lee T S, White H W. Appl. Phys. Lett.,2003,83:87.
[39] Wang X, Summers C J, Wang Z L. Adv. Mater.,2004,16:1215.
[40] Dai J, Su H, Wang L, et al. J. Cryst. Growth,2006,290:426.
[41] He H P, Ye Z Z, Zhuge F, et al. Solid State Commun.,2006,138:542.
[42] Liu X, Wu X, Cao H, et al. J. Appl. Phys.,2004,95:3141.
[43] Choi C H, Kim S H. J. Cryst. Growth,2005,283:170.
[44] Kang H S, Kang J S, Kim J W, et al. J. Appl. Phys.,2003,95:1246.
[45] Look D C, Falow G C, Reunchan P, et al. Phys. Rev. Lett.,2005,95:225502.
[46] Janotti A, Van de Walle C G. Appl. Phys. Lett.,2005,87:122102.
[47] Bylander F G. J. Appl. Phys.,1978,49:1188.
[48] Lin B, Fu Z, Jia Y. Appl. Phys. Lett.,2001,79943.
[49] Vlasenko L S, Watkins G D. Phys. Rev. B,2005,71:125210.
[50] Look D C, Farlow G C, Reunchan P, et al. Phys. Rev. Lett.,2005,95:225502.
[51] van Dijken A, Meulenkamp E A, Vanmaekelbergh D, et al. J. Lumin.,2000,90:123.
[52] Chen J, Feng Z, Ying P, et al. J. Phys. Chem. B, 2004, 108: 12669.
[53] Vanheusden K, Warren W L, Seager C H, et al. J. Appl. Phys.,1996,79:7983.
[54] Liu M, Kitai A H, Mascher P. J. Lumin.,1992,54:35.
[55] zgür ü, Alivov Y, Liu C, et al. J. Appl. Phys.,2005,98:041301.
[56] Auret F D, Goodman S A, Hayes M, et al. Appl. Phys. Lett.,2001,79:3074.
[57] Hernández M A, Damonte L C, Marí B. Superlattices and Microstructures,2005,38:336.
[58] Damonte L C, Hernández M A, Marí B. Journal of Alloys and Compounds, 2007, 434-435: 813.
[59] Vlasenko L S, Watkins G D. Phys. Rev. B,2005,71:125210.
[60] Choopan S, Vispute R D, Noch W, et al. Appl. Phys. Lett.,1995,75:3947. |
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