Mechanistic behaviour of Chlorella vulgaris biofilm formation onto waste organic solid support used to treat palm kernel expeller in the recent Anthropocene

Rawindran, H. and Syed, R. and Alangari, A. and Khoo, K.S. and Lim, J.W. and Sahrin, N.T. and Suparmaniam, U. and Raksasat, R. and Liew, C.S. and Leong, W.H. and Kiatkittipong, W. and Shahid, M.K. and Hara, H. and Shaharun, M.S. (2023) Mechanistic behaviour of Chlorella vulgaris biofilm formation onto waste organic solid support used to treat palm kernel expeller in the recent Anthropocene. Environmental Research, 222.

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Abstract

The capacity to maximize the proliferation of microalgal cells by means of topologically textured organic solid surfaces under various pH gave rise to the fundamental biophysical analysis of cell-surface attachment in this study. The substrate used in analysis was palm kernel expeller (PKE) in which the microalgal cells had adhered onto its surface. The findings elucidated the relevance of surface properties in terms of surface wettability and surface energy in relation to the attached microalgal growth with pH as the limiting factor. The increase in hydrophobicity of PKE-microalgae attachment was able to facilitate the formation of biofilm better. The pH 5 and pH 11 were found to be the conditions with highest and lowest microalgal growths, respectively, which were in tandem with the highest contact angle value at pH 5 and conversely for pH 11. The work of attachment (Wcs) had supported the derived model with positive values being attained for all the pH conditions, corroborating the thermodynamic feasibility. Finally, this study had unveiled the mechanism of microalgal attachment onto the surface of PKE using the aid of extracellular polymeric surfaces (EPS) from microalgae. Also, the hydrophobic nature of PKE enabled excellent attachment alongside with nutrients for microalgae to grow and from layer-by-layer (LbL) assembly. This assembly was then isolated using organosolv method by means of biphasic solvents, namely, methanol and chloroform, to induce detachment. © 2023 Elsevier Inc.

Item Type: Article
Additional Information: cited By 6
Uncontrolled Keywords: chloroform; methanol, Anthropocene; biofilm; growth rate; hydrophobicity; methanol; microalga, algal cell culture; Article; biofilm; cell proliferation; Chlorella vulgaris; contact angle; controlled study; feasibility study; hydrophobicity; microalga; nonhuman; pH; polymerization; surface property; wettability; biomass; chemical phenomena; microalga, Biofilms; Biomass; Chlorella vulgaris; Hydrophobic and Hydrophilic Interactions; Microalgae; Surface Properties
Depositing User: Mr Ahmad Suhairi UTP
Date Deposited: 04 Jun 2024 14:11
Last Modified: 04 Jun 2024 14:11
URI: https://khub.utp.edu.my/scholars/id/eprint/18675

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