Ferrates (iron(VI) and iron(V)): Environmentally friendly oxidants and disinfectants (original) (raw)

Water Disinfection: Ferrate(VI) as the Greenest Chemical - A Review

Djamel Ghernaout

Applied Engineering, 2019

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Application of Ferrate ( VI ) as Disinfectant in Drinking Water Treatment Processes : A Review

paul nguema

2016

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Application of Fe(VI) in abating contaminants in water: State of art and knowledge gaps

Shuchang Wang

Frontiers of Environmental Science & Engineering, 2020

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Wastewater disinfection and organic matter removal using ferrate (VI) oxidation

Luis G. Torres

Journal of Water and Health, 2009

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Ferrate(VI): In situ generation and water treatment – A review

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Mechanistic Insight into Disinfection Using Ferrate(VI)

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Disinfection Performance of Iron (VI) for Wastewater Disinfection, Reuse, and Wetland Restoration

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Proceedings of the Water Environment Federation, 2009

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Inhibition of Biological Reductive Dissolution of Hematite by Ferrous Iron

Brian Dempsey

Environmental Science & Technology, 2004

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Ferrates for water remediation

Plinio Innocenzi

Reviews in Environmental Science and Bio/Technology, 2016

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Enhanced oxidative transformation of organic contaminants by activation of ferrate(VI): Possible involvement of FeV/FeIV species

Ajay Ray

Chemical Engineering Journal, 2017

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An overview on production and application of ferrate (VI) for chemical oxidation, coagulation and disinfection of water and wastewater

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Bctericidal power of ferrate (VI) for the treatment of water

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Ferrate(VI) oxidation of endocrine disruptors and antimicrobials in water

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Journal of Water Supply: Research and Technology—AQUA, 2008

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The fate and impact of contaminants in a biological iron oxidation and jarosite precipitation process

Christina Morris

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Enhancement of Biological Reduction of Hematite by Electron Shuttling and Fe(II) Complexation

Brian Dempsey

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Waste Water Treatment Using Eco Friendly Oxidising Agent Fe (VI)

Vidyavati Shastry

Journal of Waste Water Treatment and Analysis, 2011

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Effects of iron nanoparticles on iron-corroding bacteria

Kirti Ranjan Das

3 Biotech, 2017

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Co and Mn decrease chemical and biological reduction rate of iron oxyhydroxides

Dana Zeineddine

Physics Procedia, 2011

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Facilitation of Fe(II) antoxidation by Fe(III) complexing agents

Philip Aisen

Biochimica et Biophysica Acta (BBA) - General Subjects, 1973

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Efficient use of ferrate(VI) for the remediation of wastewater contaminated with metal complexes

Lalsaimawia Sailo

Environmental Engineering Research, 2015

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Inhibition effect of ferric iron on the kinetics of ferrous iron

Colin Webb

Biotechnology letters, 1998

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Drinking water treatment by ferrate(VI) and toxicity assessment of the treated water

Hari Babu Durai

Desalination and Water Treatment, 2016

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Fe oxidizing bacteria and the weathering of Fe silicate minerals

Susan Welch

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CO 2 /HCO 3 Accelerates Iron Reduction through Phenolic Compounds

Ralf Takors

MBio, 2020

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ChemInform Abstract: Iron-Containing Nanomaterials: Synthesis, Properties, and Environmental Applications

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Effects of Fe(III) Oxide Mineralogy and Phosphate on Fe(II) Secondary Mineral Formation during Microbial Iron Reduction

Edward J O'Loughlin

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Ferritin and ferrihydrite nanoparticles as iron sources for Pseudomonas aeruginosa

Nydia Morales-Soto

JBIC Journal of Biological Inorganic Chemistry, 2013

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Iron-containing nanomaterials: synthesis, properties, and environmental applications

Boris Kharissov

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Ferrate(VI): Green chemistry oxidant for degradation of cationic surfactant

Ajay Ray

Chemosphere, 2006

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Climbing the hill: The implications of a two-step adaptation on biooxidation of ferrous ion at high total iron concentrations by At. ferrooxidans

Paulina Aguirre

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Overlooked Role of Fe(IV) and Fe(V) in Organic Contaminant Oxidation by Fe(VI

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Mechanisms and Efficiency of the Simultaneous Removal of Metals and Cyanides by Using Ferrate(VI): Crucial Roles of Nanocrystalline Iron(III) Oxyhydroxides and Metal Carbonates

Virender Sharma

Chemistry - A European Journal, 2011

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