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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

238 related items for PubMed ID: 26521089

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  • 4. Comparison of aerobic atrazine degradation with zero valent aluminum and zero valent iron.
    Shen W, Kang H, Ai Z.
    J Hazard Mater; 2018 Sep 05; 357():408-414. PubMed ID: 29913373
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  • 6. Enhanced chitosan beads-supported Fe(0)-nanoparticles for removal of heavy metals from electroplating wastewater in permeable reactive barriers.
    Liu T, Yang X, Wang ZL, Yan X.
    Water Res; 2013 Nov 01; 47(17):6691-700. PubMed ID: 24075723
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  • 8. Removal of heavy metals from landfill leachate using zero valent iron and granular activated carbon.
    Bilardi S, Calabrò PS, Greco R, Moraci N.
    Environ Technol; 2020 Jan 01; 41(4):498-510. PubMed ID: 30028646
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  • 14. Estimate of the optimum weight ratio in zero-valent iron/pumice granular mixtures used in permeable reactive barriers for the remediation of nickel contaminated groundwater.
    Calabrò PS, Moraci N, Suraci P.
    J Hazard Mater; 2012 Mar 15; 207-208():111-6. PubMed ID: 21885195
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  • 16. Selenate removal by zero-valent iron in oxic condition: the role of Fe(II) and selenate removal mechanism.
    Yoon IH, Bang S, Kim KW, Kim MG, Park SY, Choi WK.
    Environ Sci Pollut Res Int; 2016 Jan 15; 23(2):1081-90. PubMed ID: 25943509
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  • 17. Treatment of acid rock drainage using a sulfate-reducing bioreactor with zero-valent iron.
    Ayala-Parra P, Sierra-Alvarez R, Field JA.
    J Hazard Mater; 2016 May 05; 308():97-105. PubMed ID: 26808248
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  • 18. Rapid magnetic removal of aqueous heavy metals and their relevant mechanisms using nanoscale zero valent iron (nZVI) particles.
    Huang P, Ye Z, Xie W, Chen Q, Li J, Xu Z, Yao M.
    Water Res; 2013 Aug 01; 47(12):4050-8. PubMed ID: 23566331
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  • 19. Heavy metals removal and hydraulic performance in zero-valent iron/pumice permeable reactive barriers.
    Moraci N, Calabrò PS.
    J Environ Manage; 2010 Nov 01; 91(11):2336-41. PubMed ID: 20643500
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