Antonio Di Colandrea, Luigi Piero Di Bonito, Paraskevas Kyriacou, Theodora Krasia-Christoforou, Giovanna Ruoppolo, Francesco Di Natale
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Experiments reveal that EFs exhibited excellent stability, easy separation, and high adsorption capacities, overcoming 100 mg/g in various operating conditions, even at a dissolved gold concentration below 20 mg/L. DTE provides a clear improvement of the adsorption capacity (around 27 mg/g for the plain EFs in contrast to 32-34 mg/g for the DTE-loaded fibers at 1 M HCl and 20 mg/g Au as initial concentration), dependent on the solution acidity and quickly approaching saturation, also at low gold concentration, testifying to the strong affinities between gold, amine, and thiol groups. Copper ions had a synergistic effect on gold uptake, enhancing adsorption and precipitation phenomena, and EFs exploited their best performance in highly acidic conditions (around 71 mg/g for the plain EFs in contrast to 96-104 mg/g for the DTE-loaded fibers at 1 M HCl and 20 mg/g Au as initial concentration), making them suitable for hydrometallurgical treatments. In contrast, UiO-66-NH<sub>2</sub> was more effective at solution pH = 2 and showed competitive adsorption between gold and copper, reducing its efficiency. Sodium ions had a mild competitive effect, but DTE-functionalized EFs maintained high selectivity toward gold. Spent EFs analysis further confirmed their potential for selective gold recovery, suggesting promising applications in refining WEEE leachates and in using gold-loaded sorbent as a functional material, useful, for example, to produce waste-derived catalysts.</p>","PeriodicalId":545,"journal":{"name":"Environmental Science and Pollution Research","volume":" ","pages":""},"PeriodicalIF":5.8000,"publicationDate":"2025-07-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"New sorbents for the hydrometallurgical recovery of gold from electric and electronic wastes.\",\"authors\":\"Antonio Di Colandrea, Luigi Piero Di Bonito, Paraskevas Kyriacou, Theodora Krasia-Christoforou, Giovanna Ruoppolo, Francesco Di Natale\",\"doi\":\"10.1007/s11356-025-36712-w\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>This study examines the adsorption performance of functionalized electrospun fibers (EFs) and an amine-loaded metal-organic framework (UiO-66-NH<sub>2</sub>) for gold recovery, testing model acidic solutions simulating Waste Electrical and Electronic Equipment (WEEE) hydrometallurgical leachates. 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引用次数: 0
摘要
本研究考察了功能化电纺丝纤维(EFs)和胺负载金属有机骨架(uuo -66- nh2)在金回收中的吸附性能,并测试了模拟废弃电气电子设备(WEEE)湿法冶金浸出液的酸性模型溶液。之所以选择双硫酯功能化的EFs和UiO-66-NH2,是因为它们在酸性环境中的稳定性、通过巯基和胺基对金的亲和力以及通过表面还原形成金纳米粒子的潜力。实验结果表明,即使在溶解金浓度低于20 mg/L的情况下,EFs也具有良好的稳定性、易于分离和高吸附能力,在各种操作条件下均可克服100 mg/g的吸附。DTE提供了明显的吸附能力提高(在1 M HCl和20 mg/g Au的初始浓度下,普通EFs的吸附能力约为27 mg/g,而负载DTE的纤维的吸附能力为32-34 mg/g),这取决于溶液的酸度和快速接近饱和,也取决于低金浓度,证明了金、胺和硫醇基团之间的强亲和力。铜离子对金的吸收具有协同作用,增强了吸附和沉淀现象,并且在高酸性条件下(在1 M HCl和20 mg/g Au的初始浓度下,普通EFs的性能约为71 mg/g,而负载dte的纤维的性能为96-104 mg/g),使其适合湿法冶金处理。而UiO-66-NH2在溶液pH = 2时更有效,且金和铜之间存在竞争吸附,降低了其吸附效率。钠离子具有轻微的竞争效应,但dte功能化的电晶体对金具有较高的选择性。废EFs分析进一步证实了它们选择性回收金的潜力,表明在精炼报废电子电气设备渗滤液和使用含金吸附剂作为功能材料方面有很大的应用前景,例如,用于生产废物衍生催化剂。
New sorbents for the hydrometallurgical recovery of gold from electric and electronic wastes.
This study examines the adsorption performance of functionalized electrospun fibers (EFs) and an amine-loaded metal-organic framework (UiO-66-NH2) for gold recovery, testing model acidic solutions simulating Waste Electrical and Electronic Equipment (WEEE) hydrometallurgical leachates. Dithioester-functionalized EFs and UiO-66-NH2 were selected for their stability in the acidic environment, the affinity for gold via thiol and amine groups, and the potential formation of gold nanoparticles through surface reduction. Experiments reveal that EFs exhibited excellent stability, easy separation, and high adsorption capacities, overcoming 100 mg/g in various operating conditions, even at a dissolved gold concentration below 20 mg/L. DTE provides a clear improvement of the adsorption capacity (around 27 mg/g for the plain EFs in contrast to 32-34 mg/g for the DTE-loaded fibers at 1 M HCl and 20 mg/g Au as initial concentration), dependent on the solution acidity and quickly approaching saturation, also at low gold concentration, testifying to the strong affinities between gold, amine, and thiol groups. Copper ions had a synergistic effect on gold uptake, enhancing adsorption and precipitation phenomena, and EFs exploited their best performance in highly acidic conditions (around 71 mg/g for the plain EFs in contrast to 96-104 mg/g for the DTE-loaded fibers at 1 M HCl and 20 mg/g Au as initial concentration), making them suitable for hydrometallurgical treatments. In contrast, UiO-66-NH2 was more effective at solution pH = 2 and showed competitive adsorption between gold and copper, reducing its efficiency. Sodium ions had a mild competitive effect, but DTE-functionalized EFs maintained high selectivity toward gold. Spent EFs analysis further confirmed their potential for selective gold recovery, suggesting promising applications in refining WEEE leachates and in using gold-loaded sorbent as a functional material, useful, for example, to produce waste-derived catalysts.
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