Probing the Interaction between Fluoride and the Polysaccharides in Al(III)- and Zr (IV)-Modified Tea Waste by Using Diverse Analytical Characterization Techniques

Barathi, M.; Kumar, A. Santhana Krishna; Kodali, Jagadeesh; Mittal, Shivam Om; Samhith, Guddati Dhruva; Rajesh, N.

doi:10.1002/slct.201701774

Cited by 12 publications

(5 citation statements)

References 70 publications

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“…In the O 1s spectra, the peak at 532.0 eV, which corresponds to Al-OH, also showed a decreasing trend from 68.03 to 63.04% (Table 1) [3]. The decrease in Al-OH bonding in AlOOH-2 and the formation of Al-F bonding indicated that the hydroxyl ions on the surface serve as active sites for fluoride ion adsorption and facilitate the exchange between hydroxyl ions and fluoride ions (Equation ( 1) and Figure 7) [3,45,46]. Also, the involvement of hydroxyl ions in the fluoride ion adsorption process was confirmed via FT-IR analysis of the AlOOH-2 before and after fluoride ion removal (details are shown in the text of the Supplementary Materials and Figure S6).…”

Section: Fluoride Adsorption Mechanism Of Alooh Adsorbents On An Al S...mentioning

confidence: 96%

“…The following supporting information can be downloaded at: https: //www.mdpi.com/article/10.3390/nano13212838/s1, Figure S1 S1: comparison of the costs of common Al salts and Al foil used as precursors for Al-based adsorbent synthesis; Table S2: atomic percent of Al and O of AlOOH on Al foil with different immersing times in boiling DI water via EDS analysis; Table S3: atomic percent of Al and O of AlOOH-0.5, AlOOH-1, AlOOH-2, and AlOOH-4 via spot EDS analysis from a cross-sectional view; Table S4: kinetic model parameters of AlOOH-2 for pseudo-first-order model obtained from sorption experiments with different initial fluoride ion concentrations; Table S5: calculated parameters for Langmuir isotherm models obtained from equilibrium sorption experiments; Table S6: adsorption capacities of various Al-based adsorbents for fluoride ions [3,22,45,46,[50][51][52][53][54][55][56][57][58][59]; Table S7: concentrations of dissolved Al in the simulated wastewater with different pH conditions measured using inductively coupled plasma optical emission spectroscopy (ICP-OES) after removal of fluoride ions. ; Table S8: Al 2p and O 1s peak parameters for the regenerated AlOOH-2.…”

Section: Supplementary Materialsmentioning

confidence: 99%

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Efficient Fluoride Wastewater Treatment Using Eco-Friendly Synthesized AlOOH

Kim,

Lee,

et al. 2023

Nanomaterials

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Fluoride ion is essential for health in small amounts, but excessive intake can be toxic. Meeting safety regulations for managing fluoride ion emissions from industrial facilities with both cost-effective and eco-friendly approaches is challenging. This study presents a solution through a chemical-free process, producing a boehmite (AlOOH) adsorbent on aluminum sheets. Utilizing cost-effective Al foil and DI water, rather than typical precursors, yields a substantial cost advantage. The optimized AlOOH adsorbent demonstrated a high fluoride ion removal rate of 91.0% in simulated wastewater with fluoride ion concentrations below 20 ppm and displayed a similar performance in industrial wastewater. Furthermore, the AlOOH adsorbent exhibited excellent reusability through a simple regeneration process and maintained stable performance across a wide pH range of 4 to 11, demonstrating its capability to adsorb fluoride ions under diverse conditions. The efficiency of the AlOOH adsorbent was validated by a high fluoride ion removal efficiency of 90.9% in a semi-batch mode flow cell, highlighting its potential applicability in engineered water treatment systems. Overall, the AlOOH adsorbent developed in this study offers a cost-effective, eco-friendly, and sustainable solution for effectively removing fluoride ion from surface waters and industrial wastewaters.

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Section: Fluoride Adsorption Mechanism Of Alooh Adsorbents On An Al S...mentioning

confidence: 96%

Section: Supplementary Materialsmentioning

confidence: 99%

Efficient Fluoride Wastewater Treatment Using Eco-Friendly Synthesized AlOOH

Kim,

Lee,

et al. 2023

Nanomaterials

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“…According to the XPS and FTIR characterization techniques conducted in this study, it is assumed that the leading mechanisms responsible for the adsorption of fluoride by the TDC-MOF materials were the ligand exchange and the electrostatic attraction (Figure 17). In addition, the literature showed that various characterization techniques supported fluoride adsorption through electrostatic, ion-exchange and hydrogen-bonding mechanisms [74][75][76]. The effect of pH showed that the adsorption capacity of Al-TDC increased signif- The three TDC-MOFs synthesized by Huang et al [63], i.e., Al-TDC, Ce-TDC and Zr-TDC, displayed high chemical stability in a wide pH range (4-10) when used for the treatment of constant 5 mg/L initial fluoride concentration.…”

Section: Application Of Mofs For the Removal Of Fluoride Anionsmentioning

confidence: 99%

Fluoride Removal from Water Sources by Adsorption on MOFs

Tolkou,

Zouboulis

2023

Separations

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Fluoride is present in several groundwaters due to natural or anthropogenic origins. Although it is necessary for physiological human functions (in small amounts, i.e., 0.5–1.2 mg/L), it could be very harmful when it exceeds the maximum permissible concentration limit of 1.5 mg/L (according to WHO). Among the numerous technologies for removing fluoride from waters, metal–organic framework (MOF) materials are considered to be promising adsorbents due to their advantages of high porosity, high specific surface area, diverse functions and easy modification. In this study, the synthesis of MOFs and the progress of their application to the removal of fluoride from contaminated water, as published in the recent literature mainly over the past five years, are reviewed. The adsorption mechanism(s) and its main characteristics, such as effect of initial fluoride concentration, adsorbent dosage, solution pH, contact time, adsorption capacity, thermodynamic and regeneration studies, etc., for the removal of fluoride with the addition of different MOFs are compared. According to these comparisons, the hydrothermal/solvothermal synthesis method is most commonly used for the preparation of MOFs, whereas higher BET surface areas are shown by specific MOFs based on aluminum metal ions. The main fluoride adsorption mechanisms were found to be electrostatic attraction and/or complexation. The most common pH for conducting experiments was 7.0, but several examined materials were found to be effective over a wide pH range. Four to six regeneration cycles were successfully applied on average, regarding the MOFs under review, whereas in the majority of these cases, the sorption process was found to be endothermic.

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“…Black tea contains structural proteins (soluble and insoluble), polysaccharides that dissolve in hot water [ 4 ]. Essentially, tea contains a variety of biologically active ingredients including methylxanthines, alkaloids (caffeine, theophylline, and theobromine), polyphenols (catechins, flavonoids, and proanthocyanidins), pigments, terpenoids, vitamins, amino acids, and polysaccharides [ 5 – 7 ]. Tea waste frequently contains nearly identical amounts of components as regular tea [ 8 ].…”

Section: Introductionmentioning

confidence: 99%

Covalent immobilization of β-galactosidase using a novel carrier alginate/tea waste: statistical optimization of beads modification and reusability

Abdella,

Hassan

2024

Bioprocess Biosyst Eng

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Abstractβ-galactosidase has been immobilized onto novel alginate/tea waste gel beads (Alg/TW) via covalent binding. Alg/TW beads were subjected to chemical modification through amination with polyethyleneimine (PEI) followed by activation with glutaraldehyde (GA). Chemical modification parameters including PEI concentration, PEI pH, and GA concentration were statistically optimized using Response Surface methodology (RSM) based on Box–Behnken Design (BBD). Analysis of variance (ANOVA) results confirmed the great significance of the model that had F value of 37.26 and P value < 0.05. Furthermore, the R2 value (0.9882), Adjusted R2 value (0.9617), and predicted R2 value (0.8130) referred to the high correlation between predicted and experimental values, demonstrating the fitness of the model. In addition, the coefficient of variation (CV) value was 2.90 that pointed to the accuracy of the experiments. The highest immobilization yield (IY) of β-galactosidase (75.1%) was given under optimized conditions of PEI concentration (4%), PEI pH (9.5), and GA concentration (2.5%). Alg/TW beads were characterized by FT-IR, TGA, and SEM techniques at each step of immobilization process. Moreover, the immobilized β-galactosidase revealed a very good reusability as it could be reused for 15 and 20 consecutive cycles keeping 99.7 and 72.1% of its initial activity, respectively. In conclusion, the environmental waste (tea waste) can be used in modern technological industries such as the food and pharmaceutical industry.

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Probing the Interaction between Fluoride and the Polysaccharides in Al(III)- and Zr (IV)-Modified Tea Waste by Using Diverse Analytical Characterization Techniques

Cited by 12 publications

References 70 publications

Efficient Fluoride Wastewater Treatment Using Eco-Friendly Synthesized AlOOH

Efficient Fluoride Wastewater Treatment Using Eco-Friendly Synthesized AlOOH

Fluoride Removal from Water Sources by Adsorption on MOFs

Covalent immobilization of β-galactosidase using a novel carrier alginate/tea waste: statistical optimization of beads modification and reusability

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