无定形磷酸钛对钕和镝的吸附行为

Süleyman İnan
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引用次数: 0

摘要

由于关键金属的供应有限,从替代来源回收这些金属已成为一个非常重要的问题。特别是,报废磁铁中含有大量的钕 (Nd) 和镝 (Dy) 离子,被认为是二次来源。本研究的重点是磷酸钛对水溶液中钕离子和镝离子的吸附和分离性能。为此,研究人员通过一步沉淀法制备了无定形磷酸钛(am-TiP)。利用 XRD、SEM-EDS、FTIR 和 BET 分析来揭示 am-TiP 的形态、结构和表面特性。根据溶液的 pH 值、接触时间、金属浓度和 Co2+ 离子的存在情况,分别考察了 Nd3+ 和 Dy3+ 离子在多元素溶液中的吸收情况。在 pH 值为 6 时,Nd3+ 的最大吸收能力为 40.16 毫克/克,在 pH 值为 4 时,Dy3+ 的最大吸收能力为 26.95 毫克/克。据观察,在含有 Co2+ 离子的溶液中,Am-TiP 对 Nd3+ 和 Dy3+ 离子具有选择性。在使用 1.0 mol/L HCl 时,Nd3+和 Dy3+ 的最高解吸率分别为 95.2% 和 97.4%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sorption Behaviors of Amorphous Titanium Phosphate Towards Neodymium and Dysprosium
Due to the limited supply of critical metals, their recovery from alternative sources has become a very important issue. In particular, end-of-life magnets contain significant amounts of neodymium (Nd) and dysprosium (Dy) ions and are considered secondary sources. The present study focused on the sorption and separation performance of titanium phosphate for Nd and Dy ions in an aqueous solution. In this regard, amorphous titanium phosphate (am‐TiP) was prepared via one‐step precipitation. XRD, SEM‐EDS, FTIR, and BET analysis were utilized to enlighten the morphological, structural, and surface properties of am‐TiP. The uptake of Nd3+ and Dy3+ ions was examined individually and in multiple element solutions depending on solution pH, contact time, metal concentration, and the presence of Co2+ ions. The maximum uptake capacity was 40.16 mg/g at pH 6 for Nd3+ and 26.95 mg/g at pH 4 for Dy3+. Am‐TiP has been observed to exhibit selectivity towards Nd3+ and Dy3+ ions in solutions containing Co2+ ions. The highest desorption yields obtained for Nd3+ and Dy3+ using 1.0 mol/L HCl were 95.2% and 97.4%, respectively.
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