定制纳米吸附剂表面：磁体材料回收中稀土和后期过渡金属的分离

Tailoring Nanoadsorbent Surfaces: Separation of Rare Earths and Late Transition Metals in Recycling of Magnet Materials.

作者信息

Vardanyan Ani, Guillon Anna, Budnyak Tetyana, Seisenbaeva Gulaim A

机构信息

Department of Molecular Sciences, Swedish University of Agricultural Sciences, P.O. Box 7015, 75007 Uppsala, Sweden.

Department of Materials Science and Engineering, Division of Nanotechnology and Functional Materials, Uppsala University, P.O. Box 35, 75103 Uppsala, Sweden.

出版信息

Nanomaterials (Basel). 2022 Mar 16;12(6):974. doi: 10.3390/nano12060974.

DOI:10.3390/nano12060974

PMID:35335787

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8950031/

Abstract

Novel silica-based adsorbents were synthesized by grafting the surface of SiO nanoparticles with amine and sulfur containing functional groups. Produced nanomaterials were characterized by SEM-EDS, AFM, FTIR, TGA and tested for adsorption and separation of Rare Earth Elements (REE) (Nd and Sm) and Late Transition Metals (LTM) (Ni and Co) in single and mixed solutions. The adsorption equilibrium data analyzed and fitted well to Langmuir isotherm model revealing monolayer adsorption process on homogeneously functionalized silica nanoparticles (NPs). All organo-silicas showed high adsorption capacities ranging between 0.5 and 1.8 mmol/g, depending on the function and the target metal ion. Most of these ligands demonstrated higher affinity towards LTM, related to the nature of the functional groups and their arrangement on the surface of nanoadsorbent.

摘要

通过将含胺和含硫官能团接枝到SiO纳米颗粒表面，合成了新型二氧化硅基吸附剂。采用扫描电子显微镜-能谱仪（SEM-EDS）、原子力显微镜（AFM）、傅里叶变换红外光谱仪（FTIR）、热重分析仪（TGA）对制备的纳米材料进行了表征，并测试了其在单一溶液和混合溶液中对稀土元素（REE）（钕和钐）和后期过渡金属（LTM）（镍和钴）的吸附和分离性能。对吸附平衡数据进行分析，结果与朗缪尔等温线模型拟合良好，表明在均匀官能化的二氧化硅纳米颗粒（NPs）上发生单层吸附过程。所有有机硅都表现出较高的吸附容量，介于0.5至1.8 mmol/g之间，这取决于官能团和目标金属离子。由于官能团的性质及其在纳米吸附剂表面的排列，这些配体中的大多数对后期过渡金属表现出更高的亲和力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d9f2/8950031/7df8a0688573/nanomaterials-12-00974-g001.jpg

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定制纳米吸附剂表面：磁体材料回收中稀土和后期过渡金属的分离

Tailoring Nanoadsorbent Surfaces: Separation of Rare Earths and Late Transition Metals in Recycling of Magnet Materials.

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