Synthesis and optical properties of Ni-doped zinc oxide nanoparticles for optoelectronic applications 被引量：3

Synthesis and optical properties of Ni-doped zinc oxide nanoparticles for optoelectronic applications

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摘要 Nanocrystalline undoped and nickel doped zinc oxide (Zn1-xNixO, x=0.00, 0.01) powders are successfully synthesized by a simple and low-temperature "auto-combustion method". The microstructural and optical absorption and emission properties of the as-prepared samples are obtained using X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier transform infra-red spectrometer (FTIR), UV-visible and photoluminescence (PL). The structure study confirms the formation of the hexagonal wurtzite ZnO without any secondary phase in the Ni-doped sample. The optical absorption measurements indicate the red shift in the absorption band edge upon nickel doping. The band gap energy decreases from 3.21 eV to 3.17 eV. The photoluminescence spectra of the as-prepared samples under a room temperature show strong ultraviolet (UV) and blue emission peaks. The PL emission research strongly reveals that Ni doping can effectively adjust the energy level which leads to a red shift at the emission peak in UV region. Nanocrystalline undoped and nickel doped zinc oxide （Zn1-xNixO, x=0.00, 0.01） powders are successfully synthesized by a simple and low-temperature ＂auto-combustion method＂. The microstructural and optical absorption and emission properties of the as-prepared samples are obtained using X-ray diffraction （XRD）, scanning electron microscopy （SEM）, Fourier transform infra-red spectrometer （FTIR）, UV-visible and photoluminescence （PL）. The structure study confirms the formation of the hexagonal wurtzite ZnO without any secondary phase in the Ni-doped sample. The optical absorption measurements indicate the red shift in the absorption band edge upon nickel doping. The band gap energy decreases from 3.21 eV to 3.17 eV. The photoluminescence spectra of the as-prepared samples under a room temperature show strong ultraviolet （UV） and blue emission peaks. The PL emission research strongly reveals that Ni doping can effectively adjust the energy level which leads to a red shift at the emission peak in UV region.

作者 R.Elilarassi G.Chandrasekaran

机构地区 Department of Physics

出处《Optoelectronics Letters》 EI 2010年第1期6-10,共5页 光电子快报（英文版）

关键词纳米掺杂氧化物傅立叶变换红外光谱仪锌镍光电应用光学性质合成扫描电子显微镜

分类号 TB383.1 [一般工业技术—材料科学与工程]

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Synthesis and optical properties of Ni-doped zinc oxide nanoparticles for optoelectronic applications 被引量：3

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