Herein, we have demonstrated the high yield facile growth of Al2O3 nanowires of uniform morphology with different polymorph phases (e.g. gamma, delta and theta) via a hydrothermal method with varying calcination temperatures. The synthesized theta-Al2O3 nanowires were well characterized by XRD, FTIR, SEM/EDAX, AFM and HRTEM techniques. Microstructural analysis confirmed that the dimensions of the individual theta-Al2O3 nanowires are approximately in the ranges 5-20 nm in width and 40-150 nm in length, and the aspect ratio is up to 20. AFM results evidenced the uniform distribution of the nanowires with controlled morphology. Furthermore, UV-vis spectroscopic data reveal that the estimated optical band gap of the theta-Al2O3 nanowires was similar to 5.16 eV. The photoluminescence spectrum exhibits blue emission upon excitation at a wavelength of 252 nm. Time-resolved spectroscopy demonstrates that these nanowires illustrate a decay time of similar to 2.23 nanoseconds. The obtained photoluminescence results with a decay time of nanoseconds suggest that the theta-Al2O3 phase could be an exceptional choice for next generation fast optical sensors.
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机译:在本文中,我们已经证明了通过具有不同煅烧温度的水热方法,可以容易地高产率地生长具有不同多晶型物相(例如,γ,δ和θ)的均匀形态的Al 2 O 3纳米线。通过XRD,FTIR,SEM / EDAX,AFM和HRTEM技术对合成的θ-Al2O3纳米线进行了很好的表征。微观结构分析证实,单独的theta-Al2O3纳米线的尺寸大约在5-20 nm的宽度和40-150 nm的长度范围内,并且长宽比高达20。AFM结果证明纳米线的分布均匀。具有可控的形态此外,紫外可见光谱数据表明,θ-Al2O3纳米线的估计光学带隙与5.16 eV相似。该光致发光光谱在252nm的波长激发时显示出蓝色发射。时间分辨光谱表明,这些纳米线的衰减时间接近2.23纳秒。衰减时间为纳秒的获得的光致发光结果表明,θ-Al2O3相可能是下一代快速光学传感器的最佳选择。
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