Optical and structural properties of Nd2O3-SiO2 nanocomposite as synthesized from sol-gel technique

Autori

  • Priya Malik D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Supriya Sehrawat D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Aryan Boora D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Bhavna Anisha D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Sushma Kumari D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Yogesh Ahlawat D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor
  • Surender Duhan D.C.R.U.S.T. Murthal, Department of Physics, Advance Sensors Lab, Haryana, India Autor

DOI:

https://doi.org/10.5937/zasmat2304512M

Apstrakt

Nd2O3-SiO2 nanocomposite was prepared in the current work utilising the sol-gel technique. After being heated in air, the amorphous phase of silicates transformed to crystalline phase via intermediate phase as oxide. Due to its comparatively small operating temperature and ability to form nanostructures with precise size, sol-gel approach is a compelling alternative. X-ray powder diffraction (XRD), Scanning electron microscopy (SEM) and Fourier transform infrared spectroscopy (FTIR), which verified the structural characteristics of neodymium silicate (Nd2O3-SiO2) nanocomposites, were used to characterise the synthesised materials. The effect of duration and annealing temperature on the phase advancement of the silicates has been considered thoroughly. It was discovered that the sample was sintered for 3 hours at various temperatures, thus obtaining neodymium silicates. In addition, Optical characterization of Nd2O3 -SiO2 was performed using Photoluminescence Spectroscopy (PL).

##submission.downloads##

Objavljeno

2023-12-15

Broj časopisa

God. 64 Br. 4 (2023)

Rubrika

Articles