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Journal Abstract Search

121 related items for PubMed ID: 37687632

  • 21.
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  • 22. Adsorption of sulfur on Lanxess Lewatit® AF 5 resin during the acidic albion leaching process for chalcopyrite.
    Marzoughi O, Pickles C, Ghahreman A.
    Heliyon; 2023 Jan; 9(1):e13112. PubMed ID: 36747931
    [Abstract] [Full Text] [Related]

  • 23. Effect of anions on selective solubilization of zinc and copper in bacterial leaching of sulfide ores.
    Harahuc L, Lizama HM, Suzuki I.
    Biotechnol Bioeng; 2000 Jul 20; 69(2):196-203. PubMed ID: 10861398
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  • 24. Enhancement of leaching copper by organic agents from waste printed circuit boards in a sulfuric acid solution.
    He J, Zhang M, Chen H, Guo S, Zhu L, Xu J, Zhou K.
    Chemosphere; 2022 Nov 20; 307(Pt 4):135924. PubMed ID: 35934095
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  • 27. Leaching of iron from copper tailings by sulfuric acid: behavior, kinetics and mechanism.
    Tao L, Wang L, Yang K, Wang X, Chen L, Ning P.
    RSC Adv; 2021 Jan 28; 11(10):5741-5752. PubMed ID: 35423117
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  • 28. Microbiological Leaching of Metallic Sulfides.
    Razzell WE, Trussell PC.
    Appl Microbiol; 1963 Mar 28; 11(2):105-10. PubMed ID: 16349627
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  • 29. Leaching Thermodynamics of Low-Grade Copper Oxide Ore from [(NH4)2SO4]-NH3-H2O Solution.
    Xiao F, Cao X, Luo X, Tu G, Yang C, Peng Y, Li H, Xu W, Wang S.
    Materials (Basel); 2024 Sep 30; 17(19):. PubMed ID: 39410391
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  • 32. Intensified bioleaching of chalcopyrite by communities with enriched ferrous or sulfur oxidizers.
    Ma L, Wang X, Liu X, Wang S, Wang H.
    Bioresour Technol; 2018 Nov 30; 268():415-423. PubMed ID: 30103167
    [Abstract] [Full Text] [Related]

  • 33. Leaching behavior and chemical stability of copper butyl xanthate complex under acidic conditions.
    Chang YK, Chang JE, Chiang LC.
    Chemosphere; 2003 Aug 30; 52(6):1089-94. PubMed ID: 12781242
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  • 34. An integrated insight into bioleaching performance of chalcopyrite mediated by microbial factors: Functional types and biodiversity.
    Tao J, Liu X, Luo X, Teng T, Jiang C, Drewniak L, Yang Z, Yin H.
    Bioresour Technol; 2021 Jan 30; 319():124219. PubMed ID: 33254450
    [Abstract] [Full Text] [Related]

  • 35. Experimental Study on the Influence of Surfactants on Ore Surface Wettability.
    Ai C, Wang S, Liu C, Li T.
    ACS Omega; 2024 Jan 09; 9(1):1056-1068. PubMed ID: 38222552
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  • 36. Sulfobacillus thermosulfidooxidans strain Cutipay enhances chalcopyrite bioleaching under moderate thermophilic conditions in the presence of chloride ion.
    Bobadilla-Fazzini RA, Cortés MP, Maass A, Parada P.
    AMB Express; 2014 Dec 09; 4(1):84. PubMed ID: 26267113
    [Abstract] [Full Text] [Related]

  • 37. Two-step biohydrometallurgical technology of copper-zinc concentrate processing as an opportunity to reduce negative impacts on the environment.
    Fomchenko NV, Muravyov MI.
    J Environ Manage; 2018 Nov 15; 226():270-277. PubMed ID: 30121463
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  • 38. Kinetics of the bioleaching of chalcopyrite concentrate by acidophilic thermophile acidianus brierleyi.
    Konishi Y, Asai S, Tokushige M, Suzuki T.
    Biotechnol Prog; 1999 Jul 15; 15(4):681-8. PubMed ID: 10441359
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  • 39. Chalcopyrite concentrate leaching with biologically produced ferric sulphate.
    Kinnunen PH, Heimala S, Riekkola-Vanhanen ML, Puhakka JA.
    Bioresour Technol; 2006 Sep 15; 97(14):1727-34. PubMed ID: 16154742
    [Abstract] [Full Text] [Related]

  • 40. Hypogene enrichment in Miduk porphyry copper ore deposit, Iran.
    Yousefi Soorani L, Shafiei Bafti B, Homam SM, Abbasloo Z, Taghizadeh Zanooghi H.
    Sci Rep; 2022 Nov 09; 12(1):19133. PubMed ID: 36352022
    [Abstract] [Full Text] [Related]

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