One-step microwave plasma enhanced chemical vapor deposition (MW-PECVD) for transparent superhydrophobic surface

Thongrom, Sukrit; Tirawanichakul, Yutthana; Munsit, Nantakan; Deangngam, Chalongrat

doi:10.1088/1757-899x/311/1/012015

Cited by 4 publications

(2 citation statements)

References 11 publications

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“…The outcome of the study showed that MW‐PECVD could result in the creation of a thin film resistant against oxidation. Also, fabrication of optically clear superhydrophobic surfaces using PDMS as a sole coating material by MW‐PECVD has been reported 99 . Deposited layers exhibited excellent superhydrophobic properties signified by the water contact angle up to of ~170°.…”

Section: Cvd Techniques For the Modification Of Thin Films And Membranesmentioning

confidence: 99%

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Advances in surface modification and functionalization for tailoring the characteristics of thin films and membranes via chemical vapor deposition techniques

Mostafavi

Mishra

Gallucci

et al. 2023

J of Applied Polymer Sci

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Advanced materials are among the prime drivers for technological revolutions and transformation in quality of lives. Over time, several modification techniques have emerged enabling development of novel materials with extraordinary features. The present review aims to introduce various promising chemical and physical surface modification techniques instrumental for tailoring the characteristics of thin films and membranes. Meticulous discussions are provided over chemical vapor deposition (CVD) techniques evolved for addressing the demands for materials with desired functionalities. Also, essential criteria for the selection of substrates, modifying and precursor materials for an effective CVD modification are elaborated. Investigations are extended to unraveling the role of various process parameters on the quality and properties of deposition. Special attention is paid to the significance and performance of CVD‐based membranes and thin films for industrial applications ranging from desalination and water treatment to energy and environment, biomedical and life science as well as packaging. The goal has been to establish a scientific platform for a timely tracking of the prevailing trends in exploitation of CVD techniques and highlighting the unexplored opportunities. This also helps in identification of the scientific and technical gaps and setting directions for further progress in the fields of thin films and membranes.

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Section: Cvd Techniques For the Modification Of Thin Films And Membranesmentioning

confidence: 99%

“…Also, fabrication of optically clear superhydrophobic surfaces using PDMS as a sole coating material by MW-PECVD has been reported. 99 Deposited layers exhibited excellent superhydrophobic properties signified by the water contact angle up to of $170 .…”

Section: Microwave Pecvdmentioning

confidence: 99%

Advances in surface modification and functionalization for tailoring the characteristics of thin films and membranes via chemical vapor deposition techniques

Mostafavi

Mishra

Gallucci

et al. 2023

J of Applied Polymer Sci

View full text Add to dashboard Cite

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Recent progress on transparent and self-cleaning surfaces by superhydrophobic coatings deposition to optimize the cleaning process of solar panels

Nomeir,

Lakhouil,

Boukheir

et al. 2023

Solar Energy Materials and Solar Cells

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Role of Hierarchical Protrusions in Water Repellent Superhydrophobic PTFE Surface Produced by Low Energy Ion Beam Irradiation

Pachchigar

Ranjan

Mukherjee

2019

Sci Rep

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The surface wettability of polytetrafluoroethylene (PTFE) was investigated with low energy Ar + ion beam irradiation varied from 300 eV to 800 eV both at normal and oblique angle of incidence (0°–70°) and at a low irradiation time of few 10 s of seconds. A remarkable change in surface wettability was observed, surface became hydrophobic to superhydrophobic just at 800 eV energy and in 30 s time. A systematic increase in the contact angle was observed with increase in beam energy and irradiation time. For a given ion energy and a threshold irradiation time, the hierarchical protrusions developed that leads to the rolling and bouncing of water droplet even on the horizontal PTFE surface. For the above energy range, the rolling speed was found to be in the range of ~19–31 mm/s. This induced wetting behaviour due to ion irradiation leads to the Cassie-Baxter state as confirmed by the calculation of sliding angle, contact angle hysteresis (CAH) and surface free energy ( S E ). The CAH values were found to be reduced from 18° for untreated surface ( S E ~ 20 mN/m) to 2° for 800 eV, 180 s irradiated surface ( S E ~ 0.35 mN/m) at normal incidence.

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One-step microwave plasma enhanced chemical vapor deposition (MW-PECVD) for transparent superhydrophobic surface

Cited by 4 publications

References 11 publications

Advances in surface modification and functionalization for tailoring the characteristics of thin films and membranes via chemical vapor deposition techniques

Advances in surface modification and functionalization for tailoring the characteristics of thin films and membranes via chemical vapor deposition techniques

Recent progress on transparent and self-cleaning surfaces by superhydrophobic coatings deposition to optimize the cleaning process of solar panels

Role of Hierarchical Protrusions in Water Repellent Superhydrophobic PTFE Surface Produced by Low Energy Ion Beam Irradiation

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