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Journal of Minerals and Materials Characterization and Engineering

Journal of Minerals and Materials Characterization and Engineering

Journal of Minerals and Materials Characterization and Engineering

ISSN Print: 2327-4077
ISSN Online: 2327-4085
www.scirp.org/Journal/jmmce
E-mail: jmmce@scirp.org
"XPS & FTIR Study of Adsorption Characteristics Using Cationic and Anionic Collectors on Smithsonite"
written by Hosseini S. Hamid, Forssberg Eric,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.5 No.1, 2006
has been cited by the following article(s):
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[2] Sorption‐oxidation mechanism for the removal of arsenic (III) using Cu‐doped ZnO in an alkaline medium
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[3] Influence of polysorbate 80 on the flotation of zinc oxide ores with amines
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[4] Determination of Pb sulfide formation on smithsonite surface in NH3-Pb-S aqueous solution system
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[5] Flotation separation of fine smithsonite from calcite using sodium hexametaphosphate as the depressant in the Na2S-Pb (Ⅱ)-KIAX system
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[6] Concentration of oxidized Brazilian zinc ore by flotation: comparative study between anionic and cationic routes
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[7] Selective separation of smithsonite from quartz by using sodium polyaspartate as a depressant
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[8] Recovery valuable metals from processing gangue minerals.
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[9] Enhancement of xanthate adsorption on lead-modified and sulfurized smithsonite surface in the presence of ammonia
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[10] Effect of dissolved oxygen on the sulfidization flotation of smithsonite
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[11] Induced crystallization of Pb2+ on smithsonite surface during sulfidation-xanthate flotation
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[12] Ammonia pretreatment for enhancement of Pb ions adsorption on smithsonite surface and its flotation performance
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[13] Influence of polysorbate 80 on the flotation of zinc oxide ores with amines.
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[14] Pb ion Pre-Modification enhances the sulfidization and floatability of smithsonite
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[15] Effect of Cu+ ions on the structure, morphology, optical and photocatalytic properties of nanostructured ZnO
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[16] СОРБЦИОННАЯ И ФОТОКАТАЛИТИЧЕСКАЯ АКТИВНОСТЬ ZN1-XCUXO (X=0,05 И 0,15) К AS (III) В ЩЕЛОЧНОЙ СРЕДЕ
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[17] Determining the lead-sulfur species formed on smithsonite surfaces during lead-ion enhanced sulfidation processing
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[18] Preparation of hierarchical porous activated carbons from different industrial lignin for highly efficient adsorption performance
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[19] Thermal treatment of (TiZr)N coatings on CO2‐controlled atmosphere
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[20] Improvement on Fluorine Migration from SF6 to SiF4 by an Efficient Mediator of Fe2O3/Cr2O3 composite
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[21] DFT simulation of S-species interaction with smithsonite (0 0 1) surface: Effect of water molecule adsorption position
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[22] Lead ion modification and its enhancement for xanthate adsorption on smithsonite surface
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[23] Impact of crystal chemistry properties on the collector-mineral interactions observed for REE orthophosphates and oxides
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[24] A Mechanism for the Adsorption of 2-(Hexadecanoylamino) Acetic Acid by Smithsonite: Surface Spectroscopy and Microflotation Experiments
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[25] Characterization of sulfide film on smithsonite surface during sulfidation processing and its response to flotation performance
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[26] Adsorption of 2-(Hexadecanoylamino) Acetic Acid Onto the Surface of Smithsonite: Mechanism and Flotation Performance
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[27] The application of atomic force microscopy in mineral flotation
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[28] The role of S (II) and Pb (II) in xanthate flotation of smithsonite: Surface properties and mechanism
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[29] Adsorption of 2-(Hexadecanoylamino) Acetic Acid Onto the Surface of Smithsonite
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[30] Influence of cations Ca2+, Mg2+ and Zn2+ on the flotation and surface charge of smithsonite and dolomite with sodium oleate and sodium silicate
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[31] From lignin to three-dimensional interconnected hierarchically porous carbon with high surface area for fast and superhigh-efficiency adsorption of sulfamethazine
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[32] Direct Carbonation of Glycerol with CO2 Catalyzed by Metal Oxides
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[33] Influência do módulo do silicato de sódio na flotação de minério de ferro: estudos fundamentais.
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[34] Synthesis of a cationic organic silicone surfactant and its application in the flotation of smithsonite
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[35] From Lignin to Three-Dimensional Interconnected Hierarchically Porous Carbon with High Surface Area for Fast and Superhigh-Efficiency Adsorption of …
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[36] Influence of cations Ca 2+, Mg 2+ and Zn 2+ on the flotation and surface charge of smithsonite and dolomite with sodium oleate and sodium silicate
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[37] The effect of the precipitation conditions on the morphology and the sorption properties of CuS particles
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[38] Flotation study of oxide zinc ore using cationic-anionic mixed collectors
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[39] Влияние условий осаждения на морфологические и сорбционные свойства частиц CuS
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[41] Dendrimer templated bioactive glass-ceramic nanovehicle for gene delivery applications
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[42] Molecular dynamics simulation of primary ammonium ions with different alkyl chains on the muscovite (001) surface
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[44] Solar light based degradation of organic pollutants using ZnO nanobrushes for water filtration
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[45] بررسی امکان فلوتاسیون اسمیت‌زونیت از باطله های معدنی انگوران‎
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[47] CONCENTRATION OF CHROMITE BY MEANS OF MAGNETIC CARRIER USING SODIUM OLEATE AND OTHER REAGENTS
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[48] A review of zinc oxide mineral beneficiation using flotation method
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[49] Separation of Chromite from Serpentine in Fine Sizes using Magnetic Carrier
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[50] Enhanced phosphate flotation using novel depressants
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[51] Role of dissolved mineral species in selective flotation of smithsonite from quartz using oleate as collector
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[52] Characterization and Application of Naturally Occurring Mineral Based Pigment in Surface Coating
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[53] Influence of important factors on flotation of zinc oxide mineral using cationic, anionic and mixed (cationic/anionic) collectors
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[54] Long-term use of galvanized steel in external applications. Aspects of patina formation, zinc runoff, barrier properties of surface treatments, and coatings and environmental fate
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[55] Long-term use of galvanized steel in external applications. Aspects of patina formation, zinc runoff, barrier properties of surface treatments, and coatings and …
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[56] Fabrication of uniform anatase TiO 2 particles exposed by {001} facets
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[57] Nanocrystalline ZnO thin films by spin coating-pyrolysis method
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[58] Behavior of esters in blend and its possible application
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[59] Understanding corrosion via corrosion product characterization: I. Case study of the role of Mg alloying in Zn–Mg coating on steel
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[60] Dispersion of Oleate‐Modified CuO Nanoparticles in a Nonpolar Solvent
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[61] Role of Cu and Ni in Two-Sites Layered Electrocatalysts for Ammonia Electrooxidation
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