Synthesis And Characterization Of Cuo Nanoparticles Using Heat Treatment Approach: Annealing Effects On Crystallite Size And Band Gap Of Cuo Nanoparticles

Authors

• Kazi Hanium Maria, University of Dhaka
• Sergio G. Rodriguez Bonet, Universidad Nacional del Litoral
• Marta V. Bosco, Universidad Nacional del Litoral
• Sk Rahat Bin Salam, University of Dhaka
• Dibakar Dhar, University of Dhaka
• Marcelo Nazzarro, Universidad Nacional de San Luis
• Octavio J. Furlong, Universidad Nacional de San Luis
• Florencia C. Calaza, Universidad Nacional del Litoral

Document Type

Article

Publication Date

2-24-2026

School

Mathematics and Natural Sciences

Abstract

Copper oxide (CuO) was synthesized through a heat treatment approach from copper(II) nitrate trihydrate {Cu(NO3)2·3H2O} as source material and polyvinylpyrrolidone (PVP) as capping agent. The obtained powder was annealed from 300 to 500 °C (in 50 °C steps) and further characterized at each of these temperatures with a battery of techniques to understand the influence of temperature on their final structures and electrical performance. XRD patterns proved that CuO nanoparticles have high purity and crystallinity (crystallite size ∼43 nm). FESEM images showed that nanoparticles are colloidal, irregular-shaped, and rod-like structures whose size is influenced by the thermal treatment. Their stoichiometry was confirmed by EDX spectrum, and HR-TEM corroborated CuO planes. Infrared and X-ray photoelectron spectroscopy studies correlate well with CuO nanoparticles being formed and free from PVP residues when annealing to Ta > 350 °C. UV–vis spectrophotometry revealed a decrease in the energy band gap up to Ta = 400 °C, after which it increases, with electrical conductivity showing this same trend. Resistivity shows a sharp increase (maximum value at Ta = 500 °C). The fluorescent intensity decreased with annealing temperature due to the recombination of electrons and holes of CuO-free excitons, demonstrated by photoluminescence. Small amounts of Cu(I) present on the nanoparticle surface were investigated by CO adsorption (FTIR), revealing the largest amount observed when Ta = 400 °C. The wide bandgap CuO NPs obtained can handle high temperatures and maintain environmental stability, and their synthesis by heat treatment is proposed as a potential alternative way of preparation due to its simple nature.

Publication Title

ACS Omega

Volume

11

Issue

7

First Page

11141

Last Page

11154

Recommended Citation

Maria, K., Rodriguez Bonet, S., Bosco, M., Bin Salam, S., Dhar, D., Nazzarro, M., Furlong, O., Calaza, F. (2026). Synthesis And Characterization Of Cuo Nanoparticles Using Heat Treatment Approach: Annealing Effects On Crystallite Size And Band Gap Of Cuo Nanoparticles. ACS Omega, 11(7), 11141-11154.
Available at: https://aquila.usm.edu/fac_pubs/22040