Growth of hierarchical based ZnO micro/nanostructured films and their tunable wettability behavior |
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Authors: | P. Suresh KumarA. Dhayal Raj D. Mangalaraj D. NatarajN. Ponpandian Lin LiG. Chabrol |
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Affiliation: | a Thin Film and Nanomaterials Laboratory, Department of Physics, Bharathiar University, Coimbatore 641 046, India b Department of Nanoscience and Technology, Bharathiar University, Coimbatore 641 046, India c Laser Processing Research Centre, School of Mechanical, Aerospace and Civil Engineering, The University of Manchester, UK |
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Abstract: | Hierarchical zinc oxide (ZnO) micro/nanostructured thin films were grown onto as-prepared and different annealed ZnO seed layer films by a simple two step chemical process. A cost effective successive ionic layer adsorption and reaction (SILAR) method was employed to grow the seed layer films at optimal temperature (80 °C) and secondly, different hierarchical based ZnO structured thin films were deposited over the seed layered films by chemical bath deposition (CBD). The influence of seed layer on the structural, surface morphological, optical and wettability behavior of the ZnO thin films were systematically investigated. The XRD analysis confirms the high crystalline nature of both the seed layer and corresponding ZnO micro/nanostructured films with a perfect hexagonal structure oriented along (0 0 2) direction. The surface morphology revels a complex and orientated hierarchical based ZnO structured films with diverse shapes from plates to hexagonal rod-like crystal to tube-like structure and even much more complex needle-like shapes during secondary nucleation, by changing the seed layer conditions. The water contact angle (WCA) measurements on hierarchical ZnO structured films are completely examined to study its surface wettability behavior for its suitability in future self-cleaning application. Photoluminescence (PL) spectra of the ZnO structured film exhibit UV and visible emissions in the range of 420-500 nm. The present approach demonstrates its potential for low-temperature, large-scale, controlled synthesis of crystalline hierarchical ZnO nanostructures films. |
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Keywords: | Hierarchical ZnO films Chemical process Surface analysis Wettability |
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