Issue 42, 2022

Facile fabrication of composite cellulose fibrous materials for efficient and consecutive dyeing wastewater treatment

Abstract

Fabricating dye adsorbents with efficient adsorption properties is of great significance in the treatment of printing and dyeing wastewater. Herein, composite materials of polydopamine decorated cellulose fibrous nonwovens (PDA@CF NWs) were fabricated by constructing a PDA functional layer on the surface of cellulose fibers via in situ polymerization. In addition, a three-dimensional adsorbent of 3D PDA@CF NWs with good hydrophilicity, structural stability, and compression resistance could be obtained using a facilely laminating and traditional loop bonding reinforcing technique. Attributed to the efficient and uniform loading of an active PDA functional layer, the resulting PDA@CF NWs exhibited a relatively large adsorption capacity of around 91 mg g−1 towards the template dye of methylene blue within a fast equilibrium time of 2 h, which was superior to most of the fibrous adsorbents. In addition, the treatment column of 3D PDA@CF NWs exhibited a breakthrough capacity of 40.9 mg g−1, reaching nearly 50% of the static saturated dye-binding capacity. More importantly, the 3D PDA@CF NWs column could effectively and continuously separate the mixture of different dyes under gravity, highlighting an excellent practical performance. Thus, the PDA@CF NWs are expected to provide a promising candidate for environment-friendly, large-scale and efficient treatment of industrial printing and dyeing wastewater.

Graphical abstract: Facile fabrication of composite cellulose fibrous materials for efficient and consecutive dyeing wastewater treatment

Supplementary files

Article information

Article type
Paper
Submitted
03 Jun 2022
Accepted
21 Sep 2022
First published
28 Sep 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 27616-27624

Facile fabrication of composite cellulose fibrous materials for efficient and consecutive dyeing wastewater treatment

D. Xie, Q. Fu, Y. Wang, J. Ge, H. Wang, Y. Zhang, W. Zhang and H. Shan, RSC Adv., 2022, 12, 27616 DOI: 10.1039/D2RA03460C

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