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235 related items for PubMed ID: 16863157

  • 1. A chemical, morphological, and electrochemical (XPS, SEM/EDX, CV, and EIS) analysis of electrochemically modified electrode surfaces of natural chalcopyrite (CuFeS2) and pyrite (FeS2) in alkaline solutions.
    Velásquez P, Leinen D, Pascual J, Ramos-Barrado JR, Grez P, Gómez H, Schrebler R, Del Río R, Córdova R.
    J Phys Chem B; 2005 Mar 24; 109(11):4977-88. PubMed ID: 16863157
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  • 2. A direct observation of bacterial coverage and biofilm formation by Acidithiobacillus ferrooxidans on chalcopyrite and pyrite surfaces.
    Yang Y, Tan SN, Glenn AM, Harmer S, Bhargava S, Chen M.
    Biofouling; 2015 Mar 24; 31(7):575-86. PubMed ID: 26343200
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  • 3. Geochemical investigation of the galvanic effects during oxidation of pyrite and base-metals sulfides.
    Chopard A, Plante B, Benzaazoua M, Bouzahzah H, Marion P.
    Chemosphere; 2017 Jan 24; 166():281-291. PubMed ID: 27705822
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  • 4. Electron paramagnetic resonance, optical absorption and Raman spectral studies on a pyrite/chalcopyrite mineral.
    Udayabhaskar Reddy G, Seshamaheswaramma K, Nakamura Y, Lakshmi Reddy S, Frost RL, Endo T.
    Spectrochim Acta A Mol Biomol Spectrosc; 2012 Oct 24; 96():310-5. PubMed ID: 22705674
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  • 5. Oxidative dissolution of chalcopyrite by Acidithiobacillus ferrooxidans analyzed by electrochemical impedance spectroscopy and atomic force microscopy.
    Bevilaqua D, Diéz-Perez I, Fugivara CS, Sanz F, Benedetti AV, Garcia O.
    Bioelectrochemistry; 2004 Aug 24; 64(1):79-84. PubMed ID: 15219250
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  • 6. Kinetics of pyrite, pyrrhotite, and chalcopyrite dissolution by Acidithiobacillus ferrooxidans.
    Kocaman AT, Cemek M, Edwards KJ.
    Can J Microbiol; 2016 Aug 24; 62(8):629-42. PubMed ID: 27332502
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  • 7. A review of the structure, and fundamental mechanisms and kinetics of the leaching of chalcopyrite.
    Li Y, Kawashima N, Li J, Chandra AP, Gerson AR.
    Adv Colloid Interface Sci; 2013 Sep 24; 197-198():1-32. PubMed ID: 23791420
    [Abstract] [Full Text] [Related]

  • 8. Interactions of aqueous selenium (-II) and (IV) with metallic sulfide surfaces.
    Naveau A, Monteil-Rivera F, Guillon E, Dumonceau J.
    Environ Sci Technol; 2007 Aug 01; 41(15):5376-82. PubMed ID: 17822105
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  • 9. Influence of the surface speciation on biofilm attachment to chalcopyrite by Acidithiobacillus thiooxidans.
    Lara RH, García-Meza JV, González I, Cruz R.
    Appl Microbiol Biotechnol; 2013 Mar 01; 97(6):2711-24. PubMed ID: 22584430
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  • 13. Sorption of selenium(IV) and selenium(VI) onto synthetic pyrite (FeS2): spectroscopic and microscopic analyses.
    Han DS, Batchelor B, Abdel-Wahab A.
    J Colloid Interface Sci; 2012 Feb 15; 368(1):496-504. PubMed ID: 22122947
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  • 15. Dithiophosphinate-pyrite interaction: voltammetry and DRIFT spectroscopy investigations at oxidizing potentials.
    Güler T.
    J Colloid Interface Sci; 2005 Aug 15; 288(2):319-24. PubMed ID: 15927595
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  • 17. Effects of pyrite and bornite on bioleaching of two different types of chalcopyrite in the presence of Leptospirillum ferriphilum.
    Zhao H, Wang J, Gan X, Zheng X, Tao L, Hu M, Li Y, Qin W, Qiu G.
    Bioresour Technol; 2015 Oct 15; 194():28-35. PubMed ID: 26183922
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  • 18. Voltammetric and drift spectroscopy investigation in dithiophosphinate-chalcopyrite system.
    Güler T, Hiçyilmaz C, Gökağaç G, Ekmekçi Z.
    J Colloid Interface Sci; 2004 Nov 01; 279(1):46-54. PubMed ID: 15380410
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  • 19. [Investigation on mechanism of pyrite oxidation in acidic solutions].
    Wang N, Yi XY, Dang Z, Liu Y.
    Huan Jing Ke Xue; 2012 Nov 01; 33(11):3916-21. PubMed ID: 23323425
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  • 20. Combined effect of silver ion and pyrite on AMD formation generated by chalcopyrite bio-dissolution.
    Liao R, Yang B, Huang X, Hong M, Yu S, Liu S, Wang J, Qiu G.
    Chemosphere; 2021 Sep 01; 279():130516. PubMed ID: 33878694
    [Abstract] [Full Text] [Related]

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