A Keratin-Waste Derived Multifunctional Gel System: Reusable Activated Carbon/Alginate Microbeads for Simultaneous Dye and Pharmaceutical Adsorption
Yue Wang, Lei Zhao, Zhiying Li, Qingqing Xue, Zhenhao Tang, Ge Zhang, Zhiqiang Li, Zifan Wang

TL;DR
This paper presents a method to create reusable gel microbeads from yak hair waste that can effectively remove dyes and pharmaceuticals from water.
Contribution
The study introduces a novel approach using keratin waste and activated carbon to create multifunctional adsorbent microbeads.
Findings
AC−Alg0.5U microbeads achieved high adsorption capacities for methylene blue (1038.9 mg/g) and methyl orange (206.2 mg/g).
The microbeads showed excellent adsorption for minocycline hydrochloride (1694.2 mg/g) and followed pseudo-second-order kinetics.
The microbeads retained 75% adsorption capacity after six cycles, indicating reusability.
Abstract
The resource utilization of keratin waste has garnered significant attention, yet the processing of yak hair keratin in underdeveloped regions such as Tibet and Qinghai in China remains challenging. This study addresses these concerns by carbonizing yak hair keratin waste using a steam flash explosion (SFE) technique for 150 s, which is followed by activation with KOH at various ratios and subsequent to produce activated carbon (AC) samples. The AC was then combined with sodium alginate (Alg) at different ratios, pH and applied voltage to yield AC−Alg gel microbeads using an electrospinning method. The characterization of the AC and AC–Alg gel microbeads was conducted using SEM, BET, TG, and FT-IR analysis. In adsorption studies, AC−Alg0.5U gel microbeads prepared with optimized conditions (pH 7, 11 kV, 19 G needle) were used to remove dyes (methylene blue (MB) and methyl orange (MO))…
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Taxonomy
TopicsDyeing and Modifying Textile Fibers · Adsorption and biosorption for pollutant removal · Polysaccharides Composition and Applications
