Extraction of bio-hydroxyapatite from devilfish (Loricariidae) for the fluoride and cadmium adsorption from water and its feasible photocatalytic properties.

Chemosphere Pub Date : 2024-10-01 Epub Date: 2024-10-15 DOI:10.1016/j.chemosphere.2024.143535
Hilda G Cisneros-Ontiveros, Luis F Zubieta-Otero, Nahum A Medellín-Castillo, Alfredo I Flores-Rojas, Mario E Rodriguez-Garcia
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Abstract

In this study, the adsorption capacity of bio-hydroxyapatite (Bio-HAp) from devilfish for the removal of F- and Cd(II) from aqueous solutions was investigated. This material was synthesized according to a 2FI factorial experimental design by varying the extraction conditions for Bio-HAp, including the type of pretreatment (alkaline and peroxide), the calcination temperature from 550 to 850 °C, and the sonication process. The maximum adsorption capacities were 8.48 and 83.56 mg g-1 for F- and Cd(II), respectively. Statistical analysis showed the importance of the type of pretreatment, temperature, and sonication for adsorption. The predicted optimal conditions were Bio-HAp extracted from bone with peroxide pretreatment, calcination at 550 °C and sonication. The surface of the Bio-HAp was found to be mesoporous and basic in character. TGA, FT-IR and SEM-EDS characterizations confirmed the presence of F- and Cd(II) on the Bio-HAp surface and confirmed the adsorption mechanisms by electrostatic forces, ion exchange, and chemisorption. The Praunitz-Rake model of adsorption isotherm showed better agreement with the equilibrium adsorption data of F- and Cd(II) at pH 7. Furthermore, photodegradation experiments showed 100% degradation methylene blue (MB) under natural sunlight. This study indicates an effective photodegradation process, suggesting high adsorption capacity of the samples. The use of devilfish as an adsorbent promises to be a viable and sustainable option for the removal of fluoride and cadmium from water, and for use in photodegradation experiments.

从魔鬼鱼(Loricariidae)中提取生物羟基磷灰石用于吸附水中的氟和镉及其可行的光催化性能。
本研究考察了魔鬼鱼生物羟基磷灰石(Bio-HAp)对水溶液中镉(II)和芴(F)的吸附能力。通过改变生物羟基磷灰石的萃取条件,包括预处理类型(碱性和过氧化物)、煅烧温度(550 至 850 °C)和超声处理,按照 2FI 因式实验设计合成了这种材料。F- 和 Cd(II) 的最大吸附容量分别为 8.48 和 83.56 mg g-1。统计分析表明,预处理类型、温度和超声处理对吸附具有重要作用。预测的最佳条件是从骨中提取的 Bio-HAp 经过过氧化物预处理、550 °C 煅烧和超声处理。研究发现,Bio-HAp 的表面具有介孔和碱性特征。TGA、FT-IR 和 SEM-EDS 表征证实了 Bio-HAp 表面存在 F- 和 Cd(II),并确认了静电力、离子交换和化学吸附的吸附机制。此外,光降解实验表明,在自然阳光下,亚甲基蓝(MB)的降解率为 100%。这项研究表明光降解过程非常有效,说明样品具有很高的吸附能力。使用魔鬼鱼作为吸附剂有望成为去除水中氟和镉以及用于光降解实验的一种可行且可持续的选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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