Biocomposite Adsorbent of Grafted Chitosan-benzaldehyde/Lactobacillus Casei Bacteria for Removal of Acid Red 88 Dye: Box-Benken Design Optimization and Mechanism Approach

Biocomposite Adsorbent of Grafted Chitosan-benzaldehyde/Lactobacillus Casei Bacteria for Removal of Acid Red 88 Dye: Box-Benken Design Optimization and Mechanism Approach

Herein, biohybrid biosorbent material was produced from grafting chitosan benzaldehyde/Lactobacillus casei (CHS-BZ/LAC) for the removal of anionic dye acid red 88 (AR88). CHS-BZ/LAC was fabricated using a hydrothermal process under the condition of 100 °C in an oven for 6 h. The optimization of AR88...

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Bibliographic Details
Main Authors: Hasan M. Agha, Salis A. Musa, Ahmad Hapiz, Ruihong Wu, Khansaa Al-Essa, Ali Mohammed Saleh, Abdallah Reghioua
Format: Article
Language:English
Published: Al-Ayen Iraqi University 2025-04-01
Series:AUIQ Complementary Biological System
Subjects:
:acid red 88 dye
benzaldehyde
chitosan biopolymer
lactobacillus casei
lyophilization
Online Access:https://acbs.alayen.edu.iq/journal/vol2/iss1/1/
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Summary:Herein, biohybrid biosorbent material was produced from grafting chitosan benzaldehyde/Lactobacillus casei (CHS-BZ/LAC) for the removal of anionic dye acid red 88 (AR88). CHS-BZ/LAC was fabricated using a hydrothermal process under the condition of 100 °C in an oven for 6 h. The optimization of AR88 dye adsorption by CHS-BZ/LAC was conducted by employing Box Bahnken design (BBD). The code and value of parameters used in this study were CHS-BZ/LAC dosage (A: 0.02-0.1 g/L), dye solution pH (B: 4-10), and contact time (C: 10-40 min). The BBD design shows that the highest removal of AR88 (94.5%) was achieved with the setting of CHS-BZ/LAC dose = 0.1 g/L, pH = 4, and contact time = 25 min. The suitability and the accuracy of the BBD design were confirmed by ANOVA analysis with the F-value = 112.84, and p-value < 0.0001. Dual interaction from parameters shows significant interactions of AB (CHS-BZ/LAC dosage vs pH), AC (CHS-BZ/LAC dosage vs contact time), and BC (pH vs contact time) with p-values less than 0.05. Multiple mechanisms of interactions took place in the biosorption process of AR88 by CHS-BZ/LAC such as n-π interactions, π-π attraction, electrostatic attraction, and hydrogen bonding. This study demonstrates the success of developing a new type of biosorbent (CHS-BZ/LAC) and effectively used for anionic azo dye removal from synthetic wastewater.
ISSN:3007-973X

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