Optical and Structural Properties of Zinc Oxide Nanorod Synthesized by Sol-Gel Method

机译：溶胶 - 凝胶法合成氧化锌纳米棒的光学和结构性能

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Zinc Oxide (ZnO) nanocrystal has been intensively studied not only for its fundamental scientific interest, but also for its potential in many optoelectronic applications, such as electroluminescence devices, chemical sensors, electrochromic windows and solar cells. Recently, ZnO nanocrystal has been used as electron acceptor materials for high power conversion efficiency hybrid solar cells due to good combination of its wide bandgap (3.37 eV), large exciton binding energy (60 meV), high charge carrier mobility, mechanical and thermal stability. The synthesis of monodisperse ZnO is an important key for achieving high performance of hybrid solar cells, because the properties of its nanocrystals strongly depend on its size and shape. We have successfully synthesized ZnO nanorod with 5 nm diameter and 11-13 nm in length by using sol-gel method as confirmed by TEM measurement. The ZnO nanorod has optical bandgap 3.38 eV and wurzite crystal structure.

机译：氧化锌（ZnO）纳米晶体不仅用于其基本科学兴趣，而且还针对其在许多光电应用中的潜力，例如电致发光器件，化学传感器，电致变色窗和太阳能电池。最近，ZnO纳米晶体已被用作高功率转换效率混合太阳能电池的电子受体材料，因为其宽带隙（3.37eV），大激子结合能量（60meV），高电荷载流动，机械和热稳定性。单分散ZnO的合成是实现杂合太阳能电池高性能的重要关键，因为其纳米晶体的性质强烈取决于其尺寸和形状。通过使用TEM测量证实，我们通过使用溶胶 - 凝胶方法成功地合成了具有5nm直径和11-13nm的11-13nm的ZnO纳米棒。 ZnO Nanorod具有光学带隙3.38eV和Wurzite晶体结构。

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《Padjadjaran International Physics Symposium》|2014年||共4页
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Mochamad Riza Iskandar; Enang Saepuloh; Lusi Safriani; Ayi Bahtiar;
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中图分类物理化学（理论化学）、化学物理学;
关键词
ZnO; sol-gel method; nanorod; optical and structural properties;

机译：ZnO;溶胶 - 凝胶法;纳米棒;光学和结构性;

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Optical and Structural Properties of Zinc Oxide Nanorod Synthesized by Sol-Gel Method

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