|
[1] Ding H Y, Pan N, Ma C, Wu Y K, Li J W, Cai H B, Zhang K, Zhang G H, Ren W Z, Li J Q, Luo Y, Wang X P and Hou J G 2014 Maximizing Integrated Optical and Electrical Properties of a Single ZnO Nanowire through Native Interfacial Doping Advanced Materials 26 3035-41 [2] Simmons J G, Reish M E, Foreman J V, Liu J and Everitt H O 2017 How sulfidation of ZnO powders enhances visible fluorescence J. Mater. Chem. C 5 10770-6 [3] Ozgur U, Alivov Y I, Liu C, Teke A, Reshchikov M A, Dogan S, Avrutin V, Cho S J and Morkoc H 2005 A comprehensive review of ZnO materials and devices Journal of Applied Physics 98 [4] Janotti A and Van de Walle C G 2009 Fundamentals of zinc oxide as a semiconductor Rep. Prog. Phys. 72 [5] McCluskey M D and Jokela S J 2009 Defects in ZnO Journal of Applied Physics 106 13 [6] Djurisic A B and Leung Y H 2006 Optical properties of ZnO nanostructures Small 2 944-61 [7] Mahanti M, Ghosh T and Basak D 2011 Enhanced near band edge luminescence of Ti/ZnO nanorod heterostructures due to the surface diffusion of Ti Nanoscale 3 4427-33 [8] Nakamura A, Ohashi T, Yamamoto K, Ishihara J, Aoki T, Temmyo J and Gotoh H 2007 Full-color electroluminescence from ZnO-based heterojunction diodes Applied Physics Letters 90 3 [9] Villafuerte M, Ferreyra J M, Zapata C, Barzola-Quiquia J, Iikawa F, Esquinazi P, Heluani S P, de Lima M M and Cantarero A 2014 Defect spectroscopy of single ZnO microwires Journal of Applied Physics 115 5 [10] Hsieh P T, Chen Y C, Kao K S and Wang C M 2008 Luminescence mechanism of ZnO thin film investigated by XPS measurement Appl. Phys. A-Mater. Sci. Process. 90 317-21 [11] Simmons J G, Foreman J V, Liu J and Everitt H O 2013 The dependence of ZnO photoluminescence efficiency on excitation conditions and defect densities Applied Physics Letters 103 4 [12] Ding H Y, Zhao Z, Zhang G H, Wu Y K, Gao Z W, Li J W, Zhang K, Pan N and Wang X P 2012 Oxygen Vacancy: An Electron-Phonon Interaction Decoupler to Modulate the Near-Band-Edge Emission of ZnO Nanorods Journal of Physical Chemistry C 116 17294-9 [13] Oh D C, Kato T, Goto H, Park S H, Hanada T, Yao T and Kim J J 2008 Comparative study of photoluminescences for Zn-polar and O-polar faces of single-crystalline ZnO bulks Applied Physics Letters 93 3 [14] Matsumoto T, Kato H, Miyamoto K, Sano M, Zhukov E A and Yao T 2002 Correlation between grain size and optical properties in zinc oxide thin films Applied Physics Letters 81 1231-3 [15] Shalish I, Temkin H and Narayanamurti V 2004 Size-dependent surface luminescence in ZnO nanowires Physical Review B 69 4 [16] Stavale F, Pascua L, Nilius N and Freund H J 2014 Luminescence Properties of Nitrogen-Doped ZnO Journal of Physical Chemistry C 118 13693-6 [17] Cho W M, Lin Y J, Liu C J, Chen L R, Shih Y T and Chen P 2014 Luminescence behavior and compensation effect of N-doped ZnO films deposited by rf magnetron sputtering under various gas-flow ratios of O-2/N-2 J Lumin 145 884-7 [18] 謝至中 2015 反應式濺鍍氧化鋅的結構缺陷與發光性質/Structural disorders and luminescent properties of ZnO prepared by reactive sputtering 國立東華大學碩士論文 [19] 何易恒 2015 激子放射的光學抑制 Optical quench of excitonic emission 國立東華大學碩士論文 [20] Kodama K and Uchino T 2012 Thermally activated below-band-gap excitation behind green photoluminescence in ZnO Journal of Applied Physics 111 9 [21] Foreman J V, Simmons J G, Baughman W E, Liu J and Everitt H O 2013 Localized excitons mediate defect emission in ZnO powders Journal of Applied Physics 113 7 [22] Wang L J and Giles N C 2003 Temperature dependence of the free-exciton transition energy in zinc oxide by photoluminescence excitation spectroscopy Journal of Applied Physics 94 973-8 [23] VARSHNI Y 1967 TEMPERATURE DEPENDENCE OF ENERGY GAP IN SEMICONDUCTORS PHYSICA 34 149-& [24] Matsuzaki R, Soma H, Fukuoka K, Kodama K, Asahara A, Suemoto T, Adachi Y and Uchino T 2017 Purely excitonic lasing in ZnO microcrystals: Temperature-induced transition between exciton-exciton and exciton-electron scattering Physical Review B 96 8
|