Fabrication of eco‐friendly superhydrophobic and superoleophilic PHB‐SiO 2 bionanofiber membrane for gravity‐driven oil/water separation

In this study, eco‐friendly superhydrophobic (SH) and superoleophilic (SO) poly (3‐hydroxybuthyrate) (PHB)‐SiO 2 bio‐nanofiber membrane has been successfully fabricated for oil–water separation. Firstly, silica nanoparticles (SiNPs) have been synthesized via green laser ablation technique. It was pl...

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Bibliographic Details
Published in:Journal of applied polymer science 2023-03, Vol.140 (9)
Main Authors: Sariipek, Fatma Bayram, Gündoğdu, Yasemin, Kiliç, Hamdi Şükür
Format: Article
Language:English
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Summary:In this study, eco‐friendly superhydrophobic (SH) and superoleophilic (SO) poly (3‐hydroxybuthyrate) (PHB)‐SiO 2 bio‐nanofiber membrane has been successfully fabricated for oil–water separation. Firstly, silica nanoparticles (SiNPs) have been synthesized via green laser ablation technique. It was placed into PHB matrix in different contents by controlling the time of ablation and then PHB‐SiO 2 nanofibrous mats were obtained on commercial stainless‐steel mesh with various mesh sizes by electrospinning method. The surface morphology and chemical structure of all obtained samples have been characterized by FT‐IR, FE‐SEM and HR‐TEM techniques. It has been observed that SiNPs obtained within 30 min ablation time, with an average size distribution between 10 nm and 200 nm with spherical shape have been uniformly anchored on PHB nanofibers. PHB‐SiO 2 fibrous membrane has shown superhydrophobicity with maximum water contact angle of 160.23 ° and superoleophilicity with oil contact angle (OCA) of being nearly 0 ° in air. Later, SH and SO membranes were directly employed for oil water separation without using any chemical reagent or additional force, and maximum efficiency of separation higher than 99% has been measured. These results has indicated that environmental friendly PHB‐SiO 2 bio‐nanofiber membrane offers high potential for using in gravity‐driven oil–water separation.
ISSN:0021-8995
1097-4628
DOI:10.1002/app.53542