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PUBMED FOR HANDHELDS

Journal Abstract Search


174 related items for PubMed ID: 33126160

  • 1. Life cycle sustainability assessment of the nanoscale zero-valent iron synthesis process for application in contaminated site remediation.
    Visentin C, Trentin AWDS, Braun AB, Thomé A.
    Environ Pollut; 2021 Jan 01; 268(Pt B):115915. PubMed ID: 33126160
    [Abstract] [Full Text] [Related]

  • 2. Social life cycle assessment of the nanoscale zero-valent iron synthesis process for application in contaminated site remediation.
    Visentin C, da Silva Trentin AW, Braun AB, Thomé A.
    Environ Sci Pollut Res Int; 2022 Mar 01; 29(15):21603-21620. PubMed ID: 34762242
    [Abstract] [Full Text] [Related]

  • 3. Are contaminated soil and groundwater remediation with nanoscale zero-valent iron sustainable? An analysis of case studies.
    Visentin C, Braun AB, Reginatto C, Cecchin I, Vanzetto GV, Thomé A.
    Environ Pollut; 2024 Jul 01; 352():124167. PubMed ID: 38754689
    [Abstract] [Full Text] [Related]

  • 4. Nano scale zero valent iron production methods applied to contaminated sites remediation: An overview of production and environmental aspects.
    Visentin C, Trentin AWDS, Braun AB, Thomé A.
    J Hazard Mater; 2021 May 15; 410():124614. PubMed ID: 33246810
    [Abstract] [Full Text] [Related]

  • 5. Performance and toxicity assessment of nanoscale zero valent iron particles in the remediation of contaminated soil: A review.
    Xue W, Huang D, Zeng G, Wan J, Cheng M, Zhang C, Hu C, Li J.
    Chemosphere; 2018 Nov 15; 210():1145-1156. PubMed ID: 30208540
    [Abstract] [Full Text] [Related]

  • 6. An overview of preparation and applications of stabilized zero-valent iron nanoparticles for soil and groundwater remediation.
    Zhao X, Liu W, Cai Z, Han B, Qian T, Zhao D.
    Water Res; 2016 Sep 01; 100():245-266. PubMed ID: 27206054
    [Abstract] [Full Text] [Related]

  • 7. Evaluating the mobility of polymer-stabilised zero-valent iron nanoparticles and their potential to co-transport contaminants in intact soil cores.
    Chekli L, Brunetti G, Marzouk ER, Maoz-Shen A, Smith E, Naidu R, Shon HK, Lombi E, Donner E.
    Environ Pollut; 2016 Sep 01; 216():636-645. PubMed ID: 27357483
    [Abstract] [Full Text] [Related]

  • 8. Remediation of pyrene-contaminated soil by synthesized nanoscale zero-valent iron particles.
    Chang MC, Kang HY.
    J Environ Sci Health A Tox Hazard Subst Environ Eng; 2009 May 01; 44(6):576-82. PubMed ID: 19337920
    [Abstract] [Full Text] [Related]

  • 9. Remediation of contaminated soils by enhanced nanoscale zero valent iron.
    Jiang D, Zeng G, Huang D, Chen M, Zhang C, Huang C, Wan J.
    Environ Res; 2018 May 01; 163():217-227. PubMed ID: 29459304
    [Abstract] [Full Text] [Related]

  • 10. Zero-Valent Iron Nanoparticles for Soil and Groundwater Remediation.
    Galdames A, Ruiz-Rubio L, Orueta M, Sánchez-Arzalluz M, Vilas-Vilela JL.
    Int J Environ Res Public Health; 2020 Aug 11; 17(16):. PubMed ID: 32796749
    [Abstract] [Full Text] [Related]

  • 11. Study of the presence of PCDDs/PCDFs on zero-valent iron nanoparticles.
    Calderon B, Lundin L, Aracil I, Fullana A.
    Chemosphere; 2017 Feb 11; 169():361-368. PubMed ID: 27886538
    [Abstract] [Full Text] [Related]

  • 12. Quantitative Assessment of Life Cycle Sustainability (QUALICS): Framework and its application to assess electrokinetic remediation.
    da S Trentin AW, Reddy KR, Kumar G, Chetri JK, Thomé A.
    Chemosphere; 2019 Sep 11; 230():92-106. PubMed ID: 31102876
    [Abstract] [Full Text] [Related]

  • 13. Environmental factors influencing remediation of TNT-contaminated water and soil with nanoscale zero-valent iron particles.
    Jiamjitrpanich W, Polprasert C, Parkpian P, Delaune RD, Jugsujinda A.
    J Environ Sci Health A Tox Hazard Subst Environ Eng; 2010 Sep 11; 45(3):263-74. PubMed ID: 20390867
    [Abstract] [Full Text] [Related]

  • 14. In situ remediation of hexavalent chromium contaminated soil by CMC-stabilized nanoscale zero-valent iron composited with biochar.
    Zhang R, Zhang N, Fang Z.
    Water Sci Technol; 2018 Mar 11; 77(5-6):1622-1631. PubMed ID: 29595164
    [Abstract] [Full Text] [Related]

  • 15. A review of the environmental implications of in situ remediation by nanoscale zero valent iron (nZVI): Behavior, transport and impacts on microbial communities.
    Lefevre E, Bossa N, Wiesner MR, Gunsch CK.
    Sci Total Environ; 2016 Sep 15; 565():889-901. PubMed ID: 26897610
    [Abstract] [Full Text] [Related]

  • 16. Pyrolytic production of zerovalent iron nanoparticles supported on rice husk-derived biochar: simple, in situ synthesis and use for remediation of Cr(VI)-polluted soils.
    Liu X, Yang L, Zhao H, Wang W.
    Sci Total Environ; 2020 Mar 15; 708():134479. PubMed ID: 31796288
    [Abstract] [Full Text] [Related]

  • 17. Transport of carbon colloid supported nanoscale zero-valent iron in saturated porous media.
    Busch J, Meißner T, Potthoff A, Oswald SE.
    J Contam Hydrol; 2014 Aug 15; 164():25-34. PubMed ID: 24914524
    [Abstract] [Full Text] [Related]

  • 18. Transport characteristics of nanoscale zero-valent iron carried by three different "vehicles" in porous media.
    Su Y, Zhao YS, Li LL, Qin CY, Wu F, Geng NN, Lei JS.
    J Environ Sci Health A Tox Hazard Subst Environ Eng; 2014 Aug 15; 49(14):1639-52. PubMed ID: 25320851
    [Abstract] [Full Text] [Related]

  • 19. Environmental application and ecological significance of nano-zero valent iron.
    Yirsaw BD, Megharaj M, Chen Z, Naidu R.
    J Environ Sci (China); 2016 Jun 15; 44():88-98. PubMed ID: 27266305
    [Abstract] [Full Text] [Related]

  • 20. A field investigation on transport of carbon-supported nanoscale zero-valent iron (nZVI) in groundwater.
    Busch J, Meißner T, Potthoff A, Bleyl S, Georgi A, Mackenzie K, Trabitzsch R, Werban U, Oswald SE.
    J Contam Hydrol; 2015 Oct 15; 181():59-68. PubMed ID: 25864966
    [Abstract] [Full Text] [Related]


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