Formation of Hollow Copper Oxide by Oxidation of Cu Nanoparticles

Title:Formation of Hollow Copper Oxide by Oxidation of Cu Nanoparticles

Volume: 10 Issue: 1

Author(s): J.-G. Lee, R. Nakamura, Y.-S. Choi, J.-H. Yu and C.-J. Choi

Affiliation:

Keywords: Copper, hollow, nanoparticles, oxidation.

Abstract: The formation of hollow Cu oxide nanoparticles through the oxidation process has been studied with Cu nanoparticles produced by the plasma arc discharge method. The initial copper nanoparticles had a size range of 40 - 60 nm and a thin Cu₂O layer on the surface. After oxidation at 100°C, there was no significant change in the particles. After oxidation at 200°C, however, the particles consisted of Cu₂O and CuO instead of metallic Cu. By further increasing the temperature up to 300°C, only CuO particles remained. The obtained CuO particles had a hollow structure which resulted from the Kirkendall effect.

Cite this article as:

Lee J.-G., Nakamura R., Choi Y.-S., Yu J.-H. and Choi C.-J., Formation of Hollow Copper Oxide by Oxidation of Cu Nanoparticles, Current Nanoscience 2014; 10 (1) . https://dx.doi.org/10.2174/1573413709666131108232654