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W2725803519 startingPage "401" @default.
W2725803519 abstract "With hydrophobicity as a basic requirement for membrane used in membrane distillation (MD) process, the membrane wetting and fouling can be effectively alleviated with superhydrophobic surface. Since the applications of existing methods were usually restricted by certain limitations, it is highly essential to develop a facile and effective approach to fabricate a superhydrophobic surface for MD process. In this study, a one-step method was employed for superhydrophobic coating with papillae-like structure on polyvinylidene fluoride (PVDF) membrane surface. The variations in surface morphology and water contact angle (WCA) were explicated as functions of PVDF and polybasic alcohol mixture (PG) contents in coating solution, the immersion temperature and time. The optimal modification was conducted in a 45 °C coating solution for 35 s with 2 wt% of PVDF and 30 wt% of PG, resulting in a superhydrophobic surface with a maximum WCA of 156.8°. Moreover, the performance of the modified membrane was compared with the original membrane in MD process with different feeds. The modified membrane demonstrated the excellent wetting and fouling resistance after superhydrophobic modification. Through the efficient one-step fabrication for superhydrophobic papillae-like surfaces, this study proposed a promising strategy to improve the performance of PVDF membrane in the MD process." @default.
W2725803519 created "2017-07-14" @default.
W2725803519 creator A5031199912 @default.
W2725803519 creator A5035961387 @default.
W2725803519 creator A5076637933 @default.
W2725803519 date "2017-10-01" @default.
W2725803519 modified "2023-10-11" @default.
W2725803519 title "Excellent wetting resistance and anti-fouling performance of PVDF membrane modified with superhydrophobic papillae-like surfaces" @default.
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W2725803519 doi "https://doi.org/10.1016/j.memsci.2017.06.073" @default.
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