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1. Full Text Development of an activated carbon‐supported zero‐valent iron catalyst (AC‐Fe0) for enhancing degradation of reactive brilliant orange and reducing iron sludge production
by Li, Dongyu and Zhu, Jishu and Wu, Jinhua and Yin, Weizhao and Liang, Hao and Lin, Guanghui
Environmental Progress & Sustainable Energy, ISSN 1944-7442, 07/2016, Volume 35, Issue 4, pp. 949 - 956
Pure zero‐valent iron (ZVI) has poor catalytic capacity due to its agglomeration and slow corrosion rate in neutral solution and hence requires acid condition... 
azo dye | heterogeneous Fenton reaction | decoloration | galvanic cell | textile wastewater | activated carbon‐supported zero‐valent iron | activated carbon-supported zero-valent iron | OXIDATION | WASTE-WATER TREATMENT | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | AZO DYES | DECOLORIZATION | REMEDIATION | AQUEOUS-SOLUTION | ENGINEERING, CHEMICAL | ENVIRONMENTAL SCIENCES | PHOTOCATALYTIC DEGRADATION | ENGINEERING, ENVIRONMENTAL | PHOTO-FENTON CATALYST | HYDROGEN-PEROXIDE | Production management | Azo compounds | Sludge | Analysis | Corrosion and anti-corrosives | Dyes | Catalysts | Decoloring | X-ray diffraction | Agglomeration | Iron | Degradation | Efficiency | Activated carbon | Reaction kinetics | Catalysis | Alternating current | Scanning electron microscopy | Particulates | Corrosion rate | Food processing | Electron microscopy | Carbon | Azo dyes | Dispersion | Electrolytic cells | Diffraction | Corrosion | Azo | Reaction time | Roasting | Pores | Kinetics | Porosity
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2. Full Text Iron Nanoparticles: Lithiumpyridinyl‐Driven Synthesis of High‐Purity Zero‐Valent Iron Nanoparticles and Their Use in Follow‐Up Reactions (Small 37/2019)
by Egeberg, Alexander and Block, Theresa and Janka, Oliver and Wenzel, Olivia and Gerthsen, Dagmar and Pöttgen, Rainer and Feldmann, Claus
Small, ISSN 1613-6810, 09/2019, Volume 15, Issue 37, pp. 1970200 - n/a
In article number 1902321, Claus Feldmann and co‐workers present the formation of zero‐valent iron nanoparticles (Fe0) by lithium pyridinyl‐driven reduction of... 
zero‐valent iron | pyridinyl | reactivity | nanoparticles | follow‐up reactions | bipyridinyl | Nanoparticles | Ferric chloride | Lithium | Iron chlorides
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3. Full Text Reusability of iron sludge as an iron source for the electrochemical Fenton-type process using Fe2+/HOCl system
by Kishimoto, Naoyuki and Kitamura, Takuya and Kato, Masaaki and Otsu, Hideo
Water Research, ISSN 0043-1354, 04/2013, Volume 47, Issue 5, pp. 1919 - 1927
This paper reports on the reusability and the optimal reuse of iron-rich sludge for an electrochemical Fenton-type process using sequencing batch mode and... 
Iron sludge | Hypochlorous acid | Electrochemical Fenton-type process | 1,4-dioxane | Ferrous ion | Advanced oxidation process | ELECTRO-FENTON | ZERO-VALENT IRON | PERMEABLE REACTIVE BARRIERS | OXIDATION PROCESSES | WATER RESOURCES | Advanced mddation process | LANDFILL LEACHATE | CORROSION PRODUCTS | HYDROXYL RADICALS | ENVIRONMENTAL SCIENCES | PHOTO-FENTON | ENGINEERING, ENVIRONMENTAL | WASTE-WATER | COAGULATION | Hydrogen Peroxide - chemistry | Batch Cell Culture Techniques | Sewage - chemistry | Dioxanes - isolation & purification | Electricity | Iron - economics | Recycling - economics | Iron - chemistry | Hypochlorous Acid - chemistry | Electrochemistry - methods | Hydrogen-Ion Concentration
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4. Full Text A strategically designed porous iron-iron oxide matrix on graphene for heavy metal adsorption
by Bhunia, Prasenjit and Kim, Giyoun and Baik, Chul and Lee, Hyoyoung
Chemical Communications, ISSN 1359-7345, 10/2012, Volume 48, Issue 79, pp. 9888 - 9890
The iron oxide nanoparticles were transformed to a matrix of iron-iron oxide on the graphene surface at an elevated temperature in a H-2/Ar atmosphere. The... 
ZERO-VALENT IRON | CHEMISTRY, MULTIDISCIPLINARY | REMOVAL | Temperature | Adsorption | Nanoparticles - chemistry | Argon - chemistry | Ferric Compounds - chemistry | Graphite - chemistry | Metals, Heavy - chemistry | Porosity | Hydrogen - chemistry | Nanoparticles | Graphene | Surface chemistry | Oxides | Resultants | High temperature | Iron oxides | Heavy metals
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5. Full Text Evolution of nanoscale zero-valent iron (nZVI) in water: Microscopic and spectroscopic evidence on the formation of nano- and micro-structured iron oxides
by Liu, Jing and Liu, Airong and Han, Jinhao and Zhang, Wei-xian
Journal of Hazardous Materials, ISSN 0304-3894, 01/2017, Volume 322, Issue Pt A, pp. 129 - 135
Knowledge on the transformation of nanoscale zero-valent iron (nZVI) in water is essential to predict its surface chemistry including surface charge, colloidal... 
Nanoscale zero-valent iron | Anoxic water | Evolution | Oxic water | NITRATE REDUCTION | OXYGENATED WATER | GRANULAR IRON | ZEROVALENT IRON | REACTIVITY | CORROSION PRODUCTS | NANOPARTICLES | ENVIRONMENTAL SCIENCES | ENGINEERING, CIVIL | ENVIRONMENTAL REMEDIATION | ENGINEERING, ENVIRONMENTAL | WASTE-WATER | GROUNDWATER TREATMENT PROCESSES | Iron oxides | Analysis | Crystals | Raman spectroscopy | Structure | Corrosion and anti-corrosives | Environmental engineering | Sorption | Electronics | Transformations | Nanostructure | Core-shell structure | Flakes
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6. Full Text A mechanistic analysis of the influence of iron‐oxidizing bacteria on antimony (V) removal from water by microscale zero‐valent iron
by Li, Yongchao and Wu, Jixin and Hu, Wei and Ren, Bozhi and Hursthouse, Andrew S
Journal of Chemical Technology & Biotechnology, ISSN 0268-2575, 09/2018, Volume 93, Issue 9, pp. 2527 - 2534
BACKGROUND Microscale zero‐valent iron (mZVI) is an efficient material for removing heavy metals from water, and iron‐oxidizing bacteria are the primary... 
iron‐oxidizing bacteria | antimony (V) | microscale zero‐valent iron | bioinhibitory effect | iron-oxidizing bacteria | microscale zero-valent iron | NITRATE REDUCTION | BEHAVIOR | ENVIRONMENT | CORROSION | ADSORPTION | CHEMISTRY, MULTIDISCIPLINARY | HEXAVALENT CHROMIUM | ENGINEERING, CHEMICAL | SPHAEROTILUS-NATANS | ENGINEERING, ENVIRONMENTAL | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | WEAK MAGNETIC-FIELD | WASTE-WATER | SULFATE-REDUCING BACTERIA | Chemical industry | Herbicides | Pesticides industry | Ecosystem components | Analysis | Bacteria | Corrosion and anti-corrosives | Hematite | Water treatment | Oxygen consumption | Antimony | Iron | Bacterial corrosion | Mass transfer | Heavy metals | Reaction products | Organic chemistry | Microorganisms | Corrosion | Mineralization | Corrosion effects | Oxidation | Redox potential | Iron oxides
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7. Full Text Carbo-Iron – An Fe/AC composite – As alternative to nano-iron for groundwater treatment
by Mackenzie, Katrin and Bleyl, Steffen and Georgi, Anett and Kopinke, Frank-Dieter
Water Research, ISSN 0043-1354, 08/2012, Volume 46, Issue 12, pp. 3817 - 3826
Carbo-Iron is a novel colloidal composite consisting of activated carbon colloids (ACC) with a particle size of 0.8 μm and anchored deposits of zero-valent... 
Dechlorination | Carbo-Iron | Composite | Fe/AC | nZVI | In-situ groundwater remediation | Injectable colloids | NZVI | ZERO-VALENT IRON | PARTICLES | HYDROCARBONS | WATER RESOURCES | ADSORPTION | SATURATED POROUS-MEDIA | NANOPARTICLES | ENVIRONMENTAL SCIENCES | TRANSPORT | ENVIRONMENTAL REMEDIATION | ENGINEERING, ENVIRONMENTAL | ACTIVATED CARBON | SIMULTANEOUS DECHLORINATION | Particle Size | Colloids - chemistry | Groundwater | Iron - chemistry | Metal Nanoparticles - chemistry | Water Pollutants, Chemical - chemistry | Carboxymethylcellulose Sodium - chemistry | Charcoal - chemistry | Kinetics | Water Purification - methods | Water, Underground | Analysis | Sediments (Geology) | Cellulose | Nanocomposites | Groundwater treatment | Colloids | Homogeneity | Nanomaterials | Iron | Nanostructure | Sediments
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8. Full Text Iron-carbon composite from carbonization of iron-crosslinked sodium alginate for Cr(VI) removal
by Wu, Jun and Zheng, Hao and Zhang, Fang and Zeng, Raymond Jianxiong and Xing, Baoshan
Chemical Engineering Journal, ISSN 1385-8947, 04/2019, Volume 362, pp. 21 - 29
It is vital to prepare iron (Fe)-containing porous carbonaceous materials (Fe/C) with high reductive Fe content, large specific surface area, and abundant... 
Carbonization | Cr(VI) removal | Fe/C composite | Reductive Fe | Fe-crosslinked sodium alginate | ZERO-VALENT IRON | ZEROVALENT IRON | ADSORPTION | REMEDIATION | HEXAVALENT CHROMIUM | AQUEOUS-SOLUTION | ENGINEERING, CHEMICAL | CR VI | NANOPARTICLES | MAGNETIC BIOCHAR | ENGINEERING, ENVIRONMENTAL | WASTE-WATER | Adsorption
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9. Full Text Cadmium (Cd2+) removal by nano zerovalent iron: surface analysis, effects of solution chemistry and surface complexation modeling
by Boparai, Hardiljeet K and Joseph, Meera and O’Carroll, Denis M
Environmental Science and Pollution Research, ISSN 0944-1344, 9/2013, Volume 20, Issue 9, pp. 6210 - 6221
Nano zerovalent iron (nZVI) is an effective remediant for removing various organic and inorganic pollutants from contaminated water sources. Batch experiments... 
Cadmium | Environmental Health | Nano zerovalent iron | Ecotoxicology | Competitive cations | Environment, general | Adsorption | Ionic strength | Surface complexation modeling | pH | Environment | Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution | Environmental Chemistry | Atmospheric Protection/Air Quality Control/Air Pollution | ZERO-VALENT IRON | SORPTION | IONS | ZINC | AQUEOUS-SOLUTION | NANOPARTICLES | ENVIRONMENTAL SCIENCES | RAY PHOTOELECTRON-SPECTROSCOPY | XPS | WATER | Models, Theoretical | Microscopy, Electron, Scanning | Iron - chemistry | Surface Properties | Water Pollutants, Chemical - chemistry | Water Purification - methods | Cadmium - chemistry | Zinc compounds | Green technology | Water pollution | Models | Iron | X-ray spectroscopy | Pollution | Statistical analysis | Environmental studies | Environmental cleanup | Heavy metals | Complexation | Surface chemistry | Nanomaterials | Mathematical models | Nanostructure
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10. Full Text Performance of Pb(II) removal by an activated carbon supported nanoscale zero-valent iron composite at ultralow iron content
by Liu, Xuejiao and Lai, Dengguo and Wang, Yin
Journal of Hazardous Materials, ISSN 0304-3894, 01/2019, Volume 361, pp. 37 - 48
Activated carbon supported nanoscale zero-valent iron composite (NZVI/AC) at ultralow iron content was synthesized and used to remove Pb(II) from aqueous... 
Nanoscale zero-valent iron | Drinking water | Activated carbon support | Kinetics | Pb(II) removal | MECHANISM | REACTIVITY | ADSORPTION | AQUEOUS-SOLUTION | NANOPARTICLES | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | OXIDES | NZVI | DRINKING-WATER | SURFACE-ANALYSIS | ZEOLITE | Adsorption | Analysis | Composite materials industry
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11. Full Text Review on nano zerovalent iron (nZVI): From synthesis to environmental applications
by Stefaniuk, Magdalena and Oleszczuk, Patryk and Ok, Yong Sik
Chemical Engineering Journal, ISSN 1385-8947, 03/2016, Volume 287, pp. 618 - 632
For remediation of water and soil, various nanoparticles such as zeolites, metal oxides, carbon materials, metals, or bimetallic nanoparticles (e.g. Fe/Pd,... 
Soil remediation | Nanomaterials | Water and wastewater treatment | Toxicity | Zerovalent iron | ZERO-VALENT IRON | AQUEOUS-SOLUTION | ENGINEERING, CHEMICAL | COMPOSITE NANOFIBERS | ENGINEERING, ENVIRONMENTAL | GREEN SYNTHESIS | CARBOXYMETHYL CELLULOSE | HEXAVALENT CHROMIUM REMOVAL | GROUNDWATER REMEDIATION | NANOSCALE IRON | HUMIC-ACID | BIMETALLIC NANOPARTICLES | Environmental aspects | Usage | Sewage | Purification | Wastewater | Zeolites
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12. Full Text Zero-valent iron/iron oxide-oxyhydroxide/graphene as a magnetic sorbent for the enrichment of polychlorinated biphenyls, polyaromatic hydrocarbons and phthalates prior to gas chromatography–mass spectrometry
by Karamani, Anna A and Douvalis, Alexios P and Stalikas, Constantine D
Journal of Chromatography A, ISSN 0021-9673, 01/2013, Volume 1271, Issue 1, pp. 1 - 9
► Synthesis and proper characterization of a magnetic sorbent. ► Expansion of the analytical capability of graphene and mainly of zero-valent iron. ►... 
PCBs | Gas chromatography | PAHs | Magnetic microextraction | Zero-valent iron/iron oxide-oxyhydroxide/graphene | Phthalates | CHEMISTRY, ANALYTICAL | POLYCYCLIC AROMATIC-HYDROCARBONS | BIOCHEMICAL RESEARCH METHODS | GRAPHITE OXIDE | METALLIC IRON | GRAPHENE SHEETS | NANOPARTICLES | REMOVAL | Zero-valent iron/iron | oxide-oxyhydroxide/graphene | ENVIRONMENTAL WATER SAMPLES | DECHLORINATION | IRON PARTICLES | SOLID-PHASE EXTRACTION | Polycyclic aromatic hydrocarbons | Graphene | Graphite | Polychlorinated biphenyls | Esters | Iron | Pollutants | Mass spectrometry | Chromatography
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13. Full Text Reactive oxygen species-related activities of nano-iron metal and nano-iron oxides
by Wu, Haohao and Yin, Jun-Jie and Wamer, Wayne G and Zeng, Mingyong and Lo, Y. Martin
Journal of Food and Drug Analysis, ISSN 1021-9498, 03/2014, Volume 22, Issue 1, pp. 86 - 94
Nano-iron metal and nano-iron oxides are among the most widely used engineered and naturally occurring nanostructures, and the increasing incidence of... 
Reactive oxygen species | Iron oxide | Nanoparticle | Toxicity | Metallic iron | ZERO-VALENT IRON | CATALYZED OXIDATION | FOOD SCIENCE & TECHNOLOGY | MEDIATED PRODUCTION | HYDROGEN-PEROXIDE DECOMPOSITION | FENTON REACTION | HYDROXYL RADICALS | NANOPARTICLES | HEMATITE | DEGRADATION | PHARMACOLOGY & PHARMACY | PARTICLE-SIZE | Metal Nanoparticles - toxicity | Animals | Reactive Oxygen Species - chemistry | Reactive Oxygen Species - metabolism | Oxidation-Reduction | Oxidative Stress | Humans | Iron - chemistry | Metal Nanoparticles - chemistry | Cellular Microenvironment | Ferric Compounds - chemistry | Oxidative stress | Physiological effects | Hydrogen peroxide | Metals | Dietary supplements | Oxides | Nanomaterials | Reducing agents | Nanostructure | Aqueous solutions | Acids | Physiology | Oxidation | Chemical composition | Iron oxides
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14. Full Text Synthesis and Characterization of Heterometallic Iron–Uranium Complexes with a Bidentate N‑Donor Ligand (2,2′-Bipyridine or 1,10-Phenanthroline)
by Schöne, Sebastian and Radoske, Thomas and März, Juliane and Stumpf, Thorsten and Ikeda-Ohno, Atsushi
Inorganic Chemistry, ISSN 0020-1669, 11/2018, Volume 57, Issue 21, pp. 13318 - 13329
The coordination chemistry of the diimine ligands, 2,2′-bipyridine (bipy) and 1,10-phenanthroline (phen), with d- and f-block metals has been extensively... 
ZERO-VALENT IRON | CRYSTAL-STRUCTURE | CHLORO COMPLEXES | STRUCTURAL-CHARACTERIZATION | OXO DIIRON(III) COMPLEX | COORDINATION POLYMERS | ANOXIC BATCH SYSTEMS | SOLID-STATE | INTERMOLECULAR INTERACTIONS | METAL-COMPLEXES | CHEMISTRY, INORGANIC & NUCLEAR
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