Lithium Chloride-Mediated enhancement of dye removal capacity in Borneo bamboo derived nanocellulose-based nanocomposite membranes (NCMs)

Lithium Chloride-Mediated enhancement of dye removal capacity in Borneo bamboo derived nanocellulose-based nanocomposite membranes (NCMs)

[Display omitted] •Nanocellulose nanocomposite is a suitable and sustainable material for nanocomposite membranes fabrication.•Lithium chloride coupled PVDF Nanocellulose Nanocomposite membranes are highly efficient for dye rejection.•Lithium chloride incorporation enhances the performance of PVDF N...

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Bibliographic Details
Published in:Journal of molecular liquids Vol. 413; p. 125973
Main Authors: James, Anthonette, Rezaur Rahman, Md, Anwar Mohamed Said, Khairul, Namakka, Murtala, Kuok Kuok, King, Uddin Khandaker, Mayeen, Al-Humaidi, Jehan Y., Althomali, Raed H., Rahman, Mohammed M.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2024
Subjects:
Bamboo
Extraction
LiCl
Lithium chloride
Nanocellulose
Water treatment
Water treatment
Nanocellulose
LiCl
Extraction
Lithium chloride
Bamboo
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Summary:[Display omitted] •Nanocellulose nanocomposite is a suitable and sustainable material for nanocomposite membranes fabrication.•Lithium chloride coupled PVDF Nanocellulose Nanocomposite membranes are highly efficient for dye rejection.•Lithium chloride incorporation enhances the performance of PVDF NCMs for both dye rejection and water filtration.•PVDF and LiCl interactions enhances membrane surface properties. Demand for sustainable materials for membrane fabrication is rapidly increasing, particularly in Sarawak coastal areas. nanocellulose emerges as a promising alternative for membrane development due to its availability, intrinsic biodegradability, and high strength. However, the hydrophobicity of nanocellulose limits its applicability in water treatment operations. Hence necessitating the need for innovative solutions. Herein, we examine the potential of bamboo-derived nanocellulose to enhance nanocomposite membrane-based water treatment systems by incorporating lithium chloride as a pore-forming additive. Nanocomposite membranes (NCMs) were synthesised using a LiCl-doped solution of nanocellulose and polyvinylidene fluoride (PVDF) through phase inversion and controlled solidification methods. The results show that nanocellulose incorporation induces structural alterations in NCMs, with reduced size in cellulose microfibrils. The crystallinity of nanocellulose was enhanced through interactions between PVDF and nanocellulose. The integration of nanocellulose along with lithium chloride was observed to have a significant impact on water permeation flux, attaining 104 L/m2h due to improved hydrophobicity and reduced fouling. In addition, the developed NCMs recorded 93 % methylene blue (MB) removal within 10 min. Revealing high potential of NCMs as an alternative and sustainable material for the development of nanocomposite membranes to mitigate contemporary challenges of water scarcity.
ISSN:0167-7322
DOI:10.1016/j.molliq.2024.125973