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Showing 2 results for Contact Angle

E. Velayi, R. Norouzbeigi,
Volume 36, Issue 4 (3-2018)
Abstract

A superhydrophobic ZnO surface was prepared on the stainless steel mesh by a one-step chemical bath deposition method without chemical post-treatment. The effect of adding polyethylene glycol 6000 (PEG 6000) as an organic additive and the type of the alkaline agent were investigated on the morphological and wettability properties of ZnO surfaces. The prepared surfaces were characterized by X-ray Diffraction (XRD), stylus profilometer, Scanning Electron Microscope (SEM), Fourier Transform Infrared (FTIR) and Raman Spectrometer. The microstructure studies showed that the addition of PEG led to formation of densely branched and uniform ZnO rods with a length of 1.5 µm and a diameter of about 95 nm on the substrate. The surface wettability studies confirmed that the sample prepared in the presence of hexamethylenetetramine (HMTA) and 0.05 mM PEG with branched tree-like micro/nanostructure exhibited excellent superhydrophobic properties with the water contact angle (WCA) of 158.2°±1.5° and contact angle hysteresis (CAH) of 3.5°. In addition, the superhydrophobic showed good  chemical stability in the pH range of 4 to 8.

F. Mansouri, M. Mehran,
Volume 39, Issue 1 (5-2020)
Abstract

In this paper, synthesis of inverted nano-pyramids on a single crystal silicon surface through a simple and cost-effective wet chemical method is surveyed. These structures were synthesized by MACE process using Cu as the assisted metal in the solution of copper nitrate, hydrogen peroxide and hydrofluoric acid for different etching times. FE-SEM images of the samples show that time is an important factor in the formation of silicon inverted nano-pyramids and by extending synthesis time the structures gradually fade. After synthesis, some samples were etched in KOH 2% and IPA 6% for one minute which resulted in formation of nano-pyramids besides inverted nano-pyramids on the silicon surface. Formation of these combinational structures affected the self-cleaning behavior of the silicon surface. X-ray diffraction (XRD) was utilized for studying the crystalline characteristics of the synthesized structures. Moreover, the self-cleaning behavior of them was studied using the contact angle goniometer. The results showed that the inverted nano-pyramids improve the hydrophilic behavior of the silicon surface while post-synthesized etching improves the hydrophobic behavior of the surface. These textures improve the performance of solar cells due to their self-cleaning and light adsorption properties


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