Anti-fouling PVDF membranes incorporating photocatalytic biochar-TiO2 composite for lignin recycle.

In this study, a photocatalytic biochar-TiO2 (C-Ti) composite was prepared using lignin as carbon precursor, and blended with PVDF polymer to fabricate PVDF/C-Ti MMMs via non-solvent induced phase inversion. The prepared membrane demonstrates both 1.5 times higher initial and recovered fluxes than the similarly prepared PVDF/TiO2 membrane, suggesting the C-Ti composite can help maintain higher photodegradation efficiency and better anti-fouling performance. In addition, the comparison of PVDF/C-Ti membrane against pristine PVDF membrane show that the reversible fouling and photodegradation reversible fouling of BSA increased from 10.1% to 6.4%-35.1% and 26.6%, respectively. And the FRR of PVDF/C-Ti membrane was 62.12%, 1.8 times that of PVDF membrane. The PVDF/C-Ti membrane was also applied for lignin separation, where the rejection to sodium lignin sulfonate was maintained at about 75%, and the flux recovery ratio after UV irradiation reached 90%. The demonstrated the advantages of PVDF/C-Ti membrane in photocatalytic degradation and antifouling performance. Copyright © 2023 Elsevier Ltd. All rights reserved.

Citation

Zhengzhong Zhou, Lili Xu, Xue Zhu, Qian Wang, Xiaoshan Meng, Taoli Huhe. Anti-fouling PVDF membranes incorporating photocatalytic biochar-TiO2 composite for lignin recycle. Chemosphere. 2023 Oct;337:139317

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PMID: 37392800

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