NiCo普鲁士蓝类似物中空纳米泡的制备及其Cs+吸附性能研究
收稿日期: 2023-11-18
网络出版日期: 2024-11-05
基金资助
中国科学院稳定支持基础研究领域青年团队计划子课题(YSBR-039);青海盐湖所基础研究青年创新交叉团队基金项目(E255HX0101)
Study on preparation of NiCo Prussian blue analogue hollow nanobubbles and their Cs+ adsorption properties
Received date: 2023-11-18
Online published: 2024-11-05
铯离子(Cs+)的高效分离在资源利用和生态安全上都具有重要意义。开发具有高容量和高选择性的Cs+吸附剂是一项具有挑战性的任务。以棱柱状四方乙酸钴镍前驱体为模板,采用自模板法绿色高效地成功合成了用于有效去除Cs+的NiCo-PBA中空纳米泡吸附剂(NiCo-PBA HNB)。通过傅里叶变换红外光谱仪(FT-IR)、X射线衍射仪(XRD)、透射电子显微镜(TEM)和能谱仪(EDS)等对NiCo-PBA HNB进行了表征。实验结果表明:NiCo-PBA HNB具有高比表面积(195.09 m2/g)和介孔(10.21 nm)分布。得益于其独特的纳米结构和孔特性,NiCo-PBA HNB能够在30 min内达到吸附平衡,其最大吸附容量可达317.59 mg/g,吸附过程符合准二级动力学模型。 即使在高浓度K+(0.1 mol/L)共存的情况下,分布系数(8.82×103 mL/g)仍保持在较高水平。此外,NiCo-PBA HNB的吸附机理主要为晶体内的K+与溶液中的Cs+的离子交换。
王航宇 , 杜以法 , 郭霞 , 那钰萱 , 万玛措 , 周永全 . NiCo普鲁士蓝类似物中空纳米泡的制备及其Cs+吸附性能研究[J]. 无机盐工业, 2024 , 56(10) : 55 -63 . DOI: 10.19964/j.issn.1006-4990.2023-0549
The efficient separation of cesium ions(Cs+) is significant in resource utilization and ecological security.Developing an adsorbent for Cs+ with high capacity and selectivity is challenging.In this work,nickel cobalt Prussian blue analog (NiCo-PBA) hollow nanobubble adsorbent(NiCo-PBA HNB) was successfully synthesized using a prism⁃shaped tetragonal cobalt nickel acetate precursor as a template using a self⁃template method to remove cesium ions(Cs+) from aqueous solutions effectively.The NiCo-PBA HNB was characterized by Fourier transform infrared spectroscopy(FT-IR),X-ray diffraction(XRD),transmission electron microscopy(TEM),and energy dispersive spectroscopy(EDS).NiCo-PBA HNB had a high specific surface area(195.09 m2/g) and a uniform mesoporous structure(10.21 nm).Thanks to its unique nanostructure and pore characteristics,NiCo-PBA HNB could reach adsorption equilibrium within 30 minutes,with a maximum adsorption capacity of 317.59 mg/g,and the adsorption process conformed to a quasi⁃second⁃order kinetic model.Even in high concentrations of K+(0.1 mol/L),the distribution coefficient(8.82×103 mL/g) remained at a high level.In addition,the adsorption mechanism of NiCo-PBA HNB mainly involved ion exchange between K+ in the crystal and Cs+ in the solution.
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