Effect of Fuel to Oxidant Molar Ratio on Structural and DC Electrical Conductivity of ZnO Nanoparticles Prepared by Simple Solution Combustion Method

ZnO nanoparticles of different sizes were prepared by varying the molar ratio of glycine and zinc nitrate hexahydrate as fuel and oxidizer (0.1, 0.8, 1.11, 1.3, 1.5, 1.7, 2.0) by simple solution combustion method. UV-Visible spectrophotometry studies show that, the band gap of the prepared ZnO nanop...

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Bibliographic Details
Published in:Journal of materials science & technology 2013-10, Vol.29 (10), p.898-902
Main Authors: Naveen, C.S., Dinesha, M.L., Jayanna, H.S.
Format: Article
Language:English
Subjects:
Electrical conductivity
Structural characterization
ZnO nanoparticles
ZnO纳米粒子
可见分光光度法
摩尔比
氧化剂
氧化锌纳米颗粒
燃料
燃烧法
直流电导率
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Summary:ZnO nanoparticles of different sizes were prepared by varying the molar ratio of glycine and zinc nitrate hexahydrate as fuel and oxidizer (0.1, 0.8, 1.11, 1.3, 1.5, 1.7, 2.0) by simple solution combustion method. UV-Visible spectrophotometry studies show that, the band gap of the prepared ZnO nanoparticles increases with increasing fuel to oxidant (F/O) molar ratio up to 1.7 revealing the formation of ZnO nanoparticles. The decrease in band gap for the sample of F/O molar ratio 2.0 is due to an increase in particle size. Powder X-ray diffraction patterns of the prepared samples show the formation of single phase ZnO nanoparticles and the particle size decreases with increasing F/O molar ratio up to 1.7. Surface morphology of the prepared samples was studied by scanning electron microscopy and it was observed that, the porosity increases with increasing F/O molar ratio. DC electrical conductivity at room temperature and in the temperature range of 303-563 K was studied for all the samples and the results revealed that, the sample of F/O molar ratio 1.7 has low electrical conductivity at room temperature and high EAR (high temperature activation energy) compared to other samples.
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2013.07.011