Abstract
17Sep 2016 TEMPERATURE AND PARTICLE SIZE DEPENDENT D.C CONDUCTIVITY OF ZINC SULFIDE NANOMATERIALS PREPARED BY USING INDIAN OLIVE LEAF EXTRACT. Uday Sankar Senapati. Green synthesis materials are considered as the substantial alternative of chemical based materials as they are environment friendly and cost effective. Study of electrical properties of engineering material is very important as it helps in optimizing sample parameters for better device applications. In this article effect of average particle size and temperature on D.C conductivity of Zinc Sulfide nano materials prepared by using a green synthesis route is reported.
Highlights
Temperature on D.C conductivity of Zinc Sulfide nano materials prepared by using a green synthesis route is reported
From the Figure it was found that there was an increase in σdc with an increase in temperature as well as decrease in average particle size. σdc values of Zinc Sulfide (ZnS) nanoparticles were much higher than that of bulk ZnS which is reported to be of the order of [10-13] Ω-1 cm-1 (Nair and Khadar, 2008)
In ZnS nano materials a significant amount of defects were trapped and immobilized across the grain boundaries
Summary
Study of electrical properties of engineering material is very important as it helps in optimizing sample parameters for better device applications. Temperature on D.C conductivity of Zinc Sulfide nano materials prepared by using a green synthesis route is reported. C conductivity of ZnS nanomaterials at different temperature.
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