THE EFFECT OF SEED LAYER THICKNESS ON HYDROPHOBICITY OF ZNO NANORODS

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BOKA BEHNAZ; GHAYOUR HAMID; KARIMKHANI FARHAD

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Paper Information

Journal: Journal of Advanced Processes in Materials Engineering Year:2015 | Volume:9 | Issue:1 (32) Page(s): 203-213

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Title

THE EFFECT OF SEED LAYER THICKNESS ON HYDROPHOBICITY OF ZNO NANORODS

Author(s)

BOKA BEHNAZ | GHAYOUR HAMID | KARIMKHANI FARHAD | Issue Writer Certificate

Keywords

ZNOQ2

NANORODQ2

HYDROTHERMALQ2

SEED LAYER THICKNESSQ2

HYDROHPOBICITYQ2

Abstract

Nowadays, ZNO NANORODs have attracted much attention due to their various applications in different industries as solar cells, light-emitting diodes, catalysts, gas sensors, varieties of nanosensors and superhydrophobic surfaces. In this research, at first a thin film of ZNO with 50, 150, and 300 nm thicknesses was coated on sodalime glass by sol-gel method via spin coating at 4000rpm. After annealing the substrates at 300°C, ZNO NANORODs were grown on the substrates by HYDROTHERMAL method in the solution composed of hexahydrate zincnitrate and ammonium for 2 hours. SEM studies were performed in order to investigate morphology (diameter and length) of NANORODs. For phase analysis x-ray diffraction (XRD) was used. For studying hydrohpbicity and contact angle measurements (CA), hydrophobicity test was carried out. AFM test was performed for topography of seed layer surface. Results revealed that with increase of SEED LAYER THICKNESS from 50 nm to 300 nm the alignment of NANORODs synthesized on the seed layers has decreased and average diameter of NANORODs has increased from 55 nm to 90 nm. Also, the results obtained from contact angle instrument showed that NANORODs synthesized on the seed layer with 50 nm thickness have larger contact angle (145.9°), compared to those synthesized on 300 nm-thick seed layer with the smallest contact angle (135.4°).

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APA: Copy

BOKA, BEHNAZ, GHAYOUR, HAMID, & KARIMKHANI, FARHAD. (2015). THE EFFECT OF SEED LAYER THICKNESS ON HYDROPHOBICITY OF ZNO NANORODS. ADVANCED PROCESSES IN MATERIALS, 9(1 (32)), 203-213. SID. https://sid.ir/paper/172561/en

Vancouver: Copy

BOKA BEHNAZ, GHAYOUR HAMID, KARIMKHANI FARHAD. THE EFFECT OF SEED LAYER THICKNESS ON HYDROPHOBICITY OF ZNO NANORODS. ADVANCED PROCESSES IN MATERIALS[Internet]. 2015;9(1 (32)):203-213. Available from: https://sid.ir/paper/172561/en

IEEE: Copy

BEHNAZ BOKA, HAMID GHAYOUR, and FARHAD KARIMKHANI, “THE EFFECT OF SEED LAYER THICKNESS ON HYDROPHOBICITY OF ZNO NANORODS,” ADVANCED PROCESSES IN MATERIALS, vol. 9, no. 1 (32), pp. 203–213, 2015, [Online]. Available: https://sid.ir/paper/172561/en

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