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The calculated mean nanoparticle sizes are listed in Table 2.
The mean nanoparticle sizes determined by TEM micrographs were 18 ± 3 (and0) and 9 ± 3 nm (SM30).
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Our results show that the particle diameter decreases with increasing laser irradiation time to a mean nanoparticle size of approximately 15 nm with a narrow size distribution.
The maximum in the size distribution or in the power spectrum (determined using one of the algorithms mentioned above) was used to determine the mean nanoparticle size.
Mean nanoparticle size of NiO increased with temperature rising from 5 nm at 350°С to 20 to 25 nm at 500°С.
Mean nanoparticle size of hydroxy-containing precursors was invariable with ammonia concentration in the initial complex, annealing temperature, and duration and has grown 5 nm.
Mean nanoparticle size of Ni depended on annealing temperature and has grown from 40 to 60 to 40 to 70 nm at temperatures 400°С and 500°С, respectively.
Mean nanoparticle size of hydroxy-containing precursors was invariable with ammonia concentration in initial complex, annealing temperature, and duration and has grown 5 nm.
Mean nanoparticle size of NiO increased with temperature rising from 5 nm at 350°С (Figure 7b) to 20 to 25 nm at 500°С (Figure 7e).
Mean nanoparticle size of NiO increased with the temperature rising from 5 nm at 350°С to 20 to 25 nm at 500°С.
Mean nanoparticle size of Ni depended on annealing temperature and has grown from 40 to 60 to 40 to 70 nm at temperatures of 400°С and 500°С, respectively.
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