AI Article Synopsis
- A modified thermal treatment method using alternating oxygen and nitrogen was effective in producing very narrow and pure silver nanoparticles.
- Structural analysis showed a transition from amorphous to cubic crystalline structures as the calcination temperature increased from 400 °C to 800 °C, along with a decrease in particle size from 7.88 nm to 3.29 nm.
- Optical properties revealed an increase in the conduction band energy of silver nanoparticles with temperature, indicating a reduction in electron attraction as particle size decreased.
Article Abstract
The modified thermal treatment method via alternate oxygen and nitrogen flow was successfully employed to synthesize very narrow and pure Ag nanoparticles. The structural and optical properties of the obtained metal nanoparticles at different calcination temperatures between 400 and 800 °C were studied using various techniques. The FTIR and EDX confirmed the formation of Ag nanoparticles without a trace of impurities. The XRD spectra revealed that the amorphous sample at 30 °C had transformed into the cubic crystalline nanostructures at the calcination temperature of 400 °C and higher. The TEM images showed the formation of spherical Ag nanoparticles in which the average particle size decreased with increasing calcination temperature from 7.88 nm at 400 °C to 3.29 nm at 800 °C. The optical properties were determined by UV-vis absorption spectrophotometer, which showed an increase in the conduction band of Ag nanoparticles with increasing calcination temperature from 2.75 eV at 400 °C to 3.04 eV at 800 °C. This was due to less attraction between conduction electrons and metal ions as the particle size decreases in corresponding to fewer numbers of atoms that made up the metal nanoparticles.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5506951 | PMC |
| http://dx.doi.org/10.3390/ma10040402 | DOI Listing |
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