I. Karume, S. Tewolde, E. Tebandeke, Is’harq Z. T. Mukasa, Ruth Mbabazi
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引用次数: 1
摘要
本研究利用α-环糊精(α-CD)的金属配位能力来络合金,从而从不同基质的电子废弃物和土壤酸消化物中分离提取金。采用大肠杆菌α-环糊精葡聚糖转移酶(α-CGTase)从木薯和山药的非食用植物淀粉中提取粗α-CD,产率≥62%。用紫外-可见光谱逐步监测反应,并用红外光谱(IR)检测α-CD的存在。将不需要提纯的α-CD粗提物与含金电子废弃物和在NaBr/ hno3混合物中预消化的土壤一起回流4 ~ 7天。在0.1 M α-CD条件下,从电子废弃物和土壤中金的回收率分别高达22.9%和70.8%。这种方法廉价、有效,而且对环境无害。
Efficiency of Crude α-Cyclodextrin in Gold Recovery from Electronic Waste and Soil
In this study, the metal coordination ability of alpha-cyclodextrin (α-CD) was employed to complex gold and thus isolate and extract it from different matrices of acid-digests of electronic waste and soil. The crude α-CD used was extracted from cassava and yam starch of the non-edible plant species using E. coli α-cyclodextrin glucanotransferase (α-CGTase), with yields ≥ 62%. The reaction was monitored progressively by ultraviolet-visible spectroscopy and checked with infrared spectroscopy (IR) for the presence of α-CD. The crude α-CD extract without need for purification was refluxed with gold contain-ing-electronic waste and soil predigested in a mixture of NaBr/HNO 3 for 4 - 7 days. Recoveries of up to 22.9% and 70.8% gold were achieved from electronic waste and soil, respectively using 0.1 M α-CD. This approach is cheap, ef-fective, and environmentally benign.
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