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  4. International Journal of Nanoelectronics and Materials (IJNeaM)
  5. Study based on micro- and nanosized raw materials using the hydrothermal method
 
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Study based on micro- and nanosized raw materials using the hydrothermal method

Journal
International Journal of Nanoelectronics and Materials (IJNeaM)
ISSN
1985-5761
Date Issued
2025-01
Author(s)
Roaa Abbas
University of Technology, Iraq
Evan Salim
University of Technology, Iraq
Rana Mahdi
University of Technology, Iraq
DOI
https://doi.org/10.58915/ijneam.v18i1.1751
Handle (URI)
https://ejournal.unimap.edu.my/index.php/ijneam/article/view/1751/1083
https://hdl.handle.net/20.500.14170/13743
Abstract
The hydrothermal approach has been applied to the synthesis of cuprous oxide on a quartz substrate. For 12 hours at 100°C, different morphologies of micro (50 μm) and nano (30 nm) copper powder were examined at a concentration of roughly 0.1 g. Using a scanning electron microscope (SEM), spherical and dendritic-like structures were formed for nano and micro particle sizes, respectively. The presence of cuprous oxide was demonstrated by X-ray analysis, and under the aforementioned circumstances, UV-VIS spectroscopy was utilized to identify the characteristics of the absorption band and band gap energy of cuprous oxide synthesis. The AFM method was used to study the surface topography for nano and micro particle sizes. The composition of the prepared sample was examined using FTIR. A DC measurement was utilized to investigate the electrical characteristics.
Subjects
  • Hydrothermal

  • Copper powder

  • Cuprous oxide

  • Spherical

  • Dendrite-like structu...

File(s)
Study based on micro- and nanosized raw materials using the hydrothermal method.pdf (1.44 MB)
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Acquisition Date
Mar 5, 2026
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Acquisition Date
Mar 5, 2026
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