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CuO Nanoparticles Synthesis by Sol- gel Method and Characterization


Affiliations
1 Department of Physics, SMBS Thorat College, Maharashtra, India
 

CuO one of the useful metal oxide and has many applications in different fields. CuO acts as a semiconductor. In the present work, the main objective is to synthesize CuO nanoparticles using a low cost Sol- Gel process at room temperature and study the material by using the characterization techniques XRD and UV-visible spectrum. Crystallites size was calculated from Scherer’s formula using most peak of CuO. The XRD pattern of CuO shows the highest intensity diffraction peak at 38.540 correspond to (111) plane. The average crystallite sizes of CuO particles were found to be 16.57 nm. CuO nanoparticle showed maximum absorption at wavelength 322 mm. The calculated energy band gap of CuO were 3.14 eV.

Keywords

CuO nanoparticles; Sol-Gel method
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  • Jayaprakash J, Srinivasan N, Chandrasekaran P, Girija EK. Synthesis and characterization of cluster of grapes like pure and Zinc-doped CuO nanoparticles by sol-gel method. Spectrochimica Acta A Mol Biomol Spectrosc. 2015;136:180306.

  • Kayani ZN, Umer M, Riaz S, Naseem S. Characterization of copper oxide nanoparticles fabricated by the sol-gel method. J Elect Materi. 2015;44(10):3704-9.

  • Sahooli M, Sabbaghi S, Saboori R. Synthesis and characterization of mono sized CuO nanoparticles. Materi Letters. 2012;81:169-72.

  • Nithya K, Yuvasree P, Neelakandeswari N, Rajasekaran N, et al. Preparation and characterization of copper oxide nanoparticles. Int J Chem Tech Res. 2014;6(3):2220-2.

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  • CuO Nanoparticles Synthesis by Sol- gel Method and Characterization

Abstract Views: 305  |  PDF Views: 2

Authors

Madhav Jadhav
Department of Physics, SMBS Thorat College, Maharashtra, India

Abstract


CuO one of the useful metal oxide and has many applications in different fields. CuO acts as a semiconductor. In the present work, the main objective is to synthesize CuO nanoparticles using a low cost Sol- Gel process at room temperature and study the material by using the characterization techniques XRD and UV-visible spectrum. Crystallites size was calculated from Scherer’s formula using most peak of CuO. The XRD pattern of CuO shows the highest intensity diffraction peak at 38.540 correspond to (111) plane. The average crystallite sizes of CuO particles were found to be 16.57 nm. CuO nanoparticle showed maximum absorption at wavelength 322 mm. The calculated energy band gap of CuO were 3.14 eV.

Keywords


CuO nanoparticles; Sol-Gel method

References