Low temperature wet chemical synthesis of good optical quality vertically aligned crystalline ZnO nanorods

Mahalingam T; Lee KM; Park KH; Lee S; Ahn Y; Park JY; Koh KH

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Low temperature wet chemical synthesis of good optical quality vertically aligned crystalline ZnO nanorods

机译：良好光学质量的低温湿化学合成垂直排列的晶体ZnO纳米棒

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The growth of ZnO nanorods on Au-coated ITO substrates using a low temperature wet chemical process is presented. Electron microscopy and x-ray diffraction observations reveal that the crystalline ZnO nanorods are preferentially oriented along the c axis. Room temperature photoluminescence (PL) measurements reveal a strong band edge emission at 382 nm, a signature of good crystallinity, with a weak and broad orange-red emission, which is typically attributed to the oxygen interstitials, in the range between 520 and 720 nm. Other than the second order feature of the band edge emission at 760 nm, no red or near-infrared bands are observed. The effect of precursor concentration on the morphological, structural and PL properties are studied, and the results are discussed.

机译：提出了使用低温湿化学工艺在镀金的ITO衬底上生长ZnO纳米棒的方法。电子显微镜和X射线衍射观察表明，结晶ZnO纳米棒优先沿c轴取向。室温光致发光（PL）测量表明，在382 nm处有很强的能带边缘发射，这是良好结晶度的标志，而橙红色的发射又弱又宽，通常归因于氧间隙，在520至720 nm之间。除了在760 nm处的谱带边缘发射的二阶特征外，没有观察到红色或近红外谱带。研究了前驱体浓度对形态，结构和PL性能的影响，并讨论了结果。

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《Nanotechnology 》 |2007年第26期| 共5页
作者
Mahalingam T; Lee KM; Park KH; Lee S; Ahn Y; Park JY; Koh KH;
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正文语种 eng
中图分类一般工业技术 ;
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MOLECULAR-BEAM EPITAXY; ZINC-OXIDE; THERMAL EVAPORATION; VAPOR-DEPOSITION; AQUEOUS-SOLUTION; GROWTH; NANOWIRES; ARRAYS;

机译：分子束环氧乙烷;氧化锌;热蒸发;蒸气沉积;水溶液;生长;纳米级;阵列;

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1. Low temperature wet chemical synthesis of good optical quality vertically aligned crystalline ZnO nanorods [J] . T Mahalingam, Kyung Moon Lee, Kyung Ho Park Nanotechnology . 2007 ,第3期

机译：良好光学质量的低温湿化学合成垂直排列的晶体ZnO纳米棒
2. Role of concentration and temperature on well-aligned ZnO nanorod by lowtemperature wet chemical bath deposition method [J] . B. N. Pawar, G. R .Patil, M.B.Shelar, Archives of Physics Research . 2012 ,第5期

机译：低温湿化学浴沉积法中浓度和温度对取向良好的ZnO纳米棒的作用
3. Controllable growth of well-aligned ZnO nanorod arrays by low-temperature wet chemical bath deposition method [J] . Qingwei Li, Jiming Bian, Jingchang Sun, Applied Surface Science . 2010 ,第6期

机译：低温湿化学浴沉积法可控生长取向良好的ZnO纳米棒阵列
4. Synthesis of High Quality ZnO Nanorods by Low Temperature Wet Chemical Process [C] . Kyung Moon Lee, Kyung Ho Park, Ken Ha Koh, IEEE International Conference on Nano/Micro Engineered and Molecular Systems . 2007

机译：低温湿化学工艺合成高质量的ZnO纳米棒
5. Characterization of metal-oxide-semiconductor structures at low temperatures using self-aligned and vertically coupled aluminum and silicon single-electron transistors [D] . Sun, Luyan 2008

机译：使用自对准和垂直耦合铝和硅单电子晶体管在低温下的金属氧化物半导体结构的表征
6. Effect of Temperature and Growth Time on Vertically Aligned ZnO Nanorods by Simplified Hydrothermal Technique for Photoelectrochemical Cells [O] . Laimy Mohd Fudzi, Zulkarnain Zainal, Hong Ngee Lim, 2018

机译：温度和生长时间对光电化学电池简化水热技术对垂直排列的ZnO纳米棒的影响
7. Growth of compact arrays of optical quality single crystalline ZnO nanorods by low temperature method [O] . Manoranjan Ghosh, Ritwik Bhattacharyya, A. K. Raychaudhuri 2008

机译：低温法，光学质量单晶ZnO纳米棒的紧凑型阵列的生长

Low temperature wet chemical synthesis of good optical quality vertically aligned crystalline ZnO nanorods

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