Preparation of a composite material based on self-assembly of biomass carbon dots and sodium alginate hydrogel and its green, efficient and visual adsorption performance for Pb2+

吸附 弗伦德利希方程 吸热过程 化学 化学工程 壳聚糖 水溶液中的金属离子 离子交换 材料科学 金属 离子 有机化学 工程类
作者
Siyi Zhang,Kamile Arkin,Yuxin Zheng,Ji‐Cheng Ma,Yuyang Bei,Di Liu,Qingkun Shang
出处
期刊:Journal of environmental chemical engineering [Elsevier BV]
卷期号:10 (1): 106921-106921 被引量:55
标识
DOI:10.1016/j.jece.2021.106921
摘要

In this paper, an environmentally friendly, visible and easy-to-recycle spherical adsorbent ([email protected], SA: sodium alginate, PEI: polyethyleneimine, CDs: carbon dots) has been prepared from functionalized positively charged biomass carbons dots (PEI-CDs) and anionic polyelectrolyte sodium alginate (SA) through electrostatic self-assembly. [email protected] can efficiently and preferentially adsorb Pb2+. Compared to bare SA, the adsorption capacity of [email protected] increased from 206.93 mg/g to 380.39 mg/g (at pH=4), which enhanced 83.82%. It can still maintain 85.67% of the original adsorption capacity after five cycles. The quenching of the blue fluorescence of the adsorbent derived from carbon dots indicates that the adsorption process has reached saturation. The investigation about the adsorption isotherm models, kinetics and thermodynamic parameters reveals that the adsorption process follows Freundlich isotherm model based on chemical adsorption, which is an endothermic spontaneous reaction with an increase in entropy. The possible adsorption mechanism is electrostatic attraction, ion exchange, and together with the coordination of -NH2, -OH, -COOH with Pb2+. In addition, the extremely easy-to-recycle spherical adsorbent is also used in the multi-layer adsorption and separation of simulated sewage samples in the water purifier model. For simulated water samples whose concentration of five/three types of heavy metal ions exceeds 100 times the standard, after using adsorbent [email protected] for two or three consecutive adsorptions, the content of heavy metals decreases rapidly, which is far below the limit value of high-quality water. The Pb2+ ion concentration decreased from 1.0 mg/L to 0.002540 mg/L and 0.003611 mg/L, respectively.
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