资讯

生物通5 天
可持续镍回收:生物浸出技术在可再生能源与循环经济中二次资源 ...
为解决传统镍提取方法高能耗、高污染及一次矿石枯竭问题,研究人员系统综述了利用嗜酸菌(如Acidithiobacillus ferrooxidans)和异养微生物(如Aspergillus niger)从电子废物、废催化剂等二次资源中生物浸出镍的技术。研究表明优化条件下镍回收率可达100%,结合机器学习与生命周期评估(LCA)验证了其 ...
生物通5 天
综述:含镓二次资源湿法冶金回收技术:浸出、分离与纯化 - 生物通
生物浸出:微生物(如Acidithiobacillus ferrooxidans)通过生物氧化作用实现环境友好型浸出,但周期较长。 Separation and enrichment of Ga from leachate 溶剂萃取:P204(二(2-乙基己基)磷酸酯)对Ga 3+ 选择性达90%,但需多级萃取; ...
C&EN4 天
Dissolution of Uranium-Bearing Minerals and Mobilization of Uranium by Organic Ligands in a ...
The stability and mobility of uranium (U) is a concern following its reductive precipitation or immobilization by techniques such as bioremediation at contaminated sites. In this study, the influences ...
C&EN4 天
Sulfate Availability Drives Divergent Evolution of Arsenic Speciation during Microbially ...
Biosynthesis of schwertmannite by Acidithiobacillus ferrooxidans and its application in arsenic immobilization in the contaminated soil. Journal of Soils and Sediments 2016 , 16 (10) , 2430-2438.