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1	Study of the structural and spectroscopic properties of small ZnS clusters by DFT Chaganti, Venkata R. January 2008 (has links) Thesis (M.S.)--University of Texas at El Paso, 2008. / Title from title screen. Vita. CD-ROM. Includes bibliographical references. Also available online.
2	AC electroluminescence in thulium-doped zinc sulfide Alshawa, Amer. January 1988 (has links) Thesis (M.S.)--Ohio University, Novmeber, 1988. / Title from PDF t.p. Electroluminescence. Zinc sulfide.
3	Study of the effect of impurities and defects on the ore beneficiation of metal sulphides Richter, Kalman 10 September 2014 (has links) Ph.D. (Chemistry) / The effect of crystal defects on the adsorption and flotation properties of zinc sulphides was examined. Flotation experiments were restricted to collectorless flotation, that is to the flotation of untreated and copper-activated samples. The effect of cyanide treatment was examined only so that an explanation could be found for the bonding characteristics of the adsorbed copper on regions where the crystallography was undisturbed and on those where it was distorted. The electrochemical method for the determination of copper permitted continuous and highly sensitive monitoring of the copper adsorption on the sphalerites. The first part of the thesis concerns the adsorption of copper on synthetic zinc sulphide crystals and natural sphalerites. It is stated that the degree of adsorption depends on the defect structure. Structure etching, gamma-ray irradiation, and selective grinding experiments are shown to justify the conclusions reached. The second part of the thesis describes the flotation of the samples. The adsorption characteristics of the samples are defined in the first part and the adsorption and flotation properties are correlated. Zinc sulfide crystals Flotation
4	Microbiological leaching of a zinc sulfide concentrate Torma, Arpad Emil January 1970 (has links) The applicability of microbiological oxidation for the recovery of zinc from a high-grade zinc sulfide concentrate has been investigated using a pure strain of Thiobacillus ferrooxidans. Factors affecting the bacterial activity and consequently the rate and extent of zinc extraction were studied. These factors were: temperature, pH, nutrient and substrate concentrations, solid particle size and surface area. The effect of carbon dioxide concentration in the air supplied to the oxidation was also studied. Larger scale experiments were carried out to simulate more closely possible industrial conditions. The optimum temperature was found to be 35°C, the optimum pH 2.3. Nutrient levels of 89 mg phosphate P/l and 636 mg ammonia N/1 were sufficient to avoid rate limitation and provide for maximum extraction, respectively. Increasing the particle surface area, the pulp density, or the total surface per unit volume of leach liquor increased the rate of zinc extraction up to a point beyond which further increases were not effective. Increasing the carbon dioxide content of the air had a similar effect. The larger scale experiments gave similar extraction rates to those observed in shake flasks but the extent of zinc extraction was significantly higher. The final concentration of zinc in leach solutions reached levels currently-employed in commercial electrowinning procedures. A form of the generalized logistic equation was shown to be capable of representing the complete extraction curve under a variety of experimental conditions. / Applied Science, Faculty of / Chemical and Biological Engineering, Department of / Graduate Leaching Zinc sulfide
5	Sulfur dioxide leaching of zinc sulfide. McGinnity, Justin January 2001 (has links) Studies were conducted into the mechanism and kinetics of the dissolution of synthetic zinc sulfide and zinc concentrate in aqueous solutions containing sulfur dioxide.Experiments at ambient temperature established that the dissolution of ZnS in aqueous solutions of sulfur dioxide proceeds via acidic non-oxidative dissolution and not by direct reaction of the sulfide with S02(aq). The non-oxidative dissolution reaction generates H2S(aq) or HS-(aq) species which are thought to rapidly react with sulfurous acid species, S02(aq) or HS03-(aq), to possibly produce initially sulfane monosulfonates as intermediates, followed by sulfane disulfonates and elemental sulfur. The formation of sulfane monosulfonates is postulated based upon inhibition observed in ZnS / S02 leaches which is not attributable to either H2S(aq) or occlusion elemental sulfur.At elevated temperatures (100oC - 200oC) the rate of ZnS dissolution in sulfurous acid is affected by the thermal decomposition of sulfurous acid, which produces sulfuric acid, which leaches the mineral non-oxidatively. Increasing the temperature increases the rate of thermal decomposition of sulfurous acid and consequently, the rate of sulfuric acid formation, increasing the rate of ZnS dissolution.The kinetics of the dissolution of ZnS in solutions of sulfuric acid and sulfur dioxide were investigated at temperatures up to 200oC. At 100oC and 150oC, the dissolution of ZnS in H2SO4 was found to obey the relationd[Zn2+]/dt = kfAs[H+] krAs[H2S(aq)]1/2[Zn2+]1/2and equilibria and rate constants for the ZnS / H2S04 reaction were obtained over the range, 100oC to 200oC. The activation energies of the forward and reverse reactions were found to be 56 +/- 11 kJ mol-1 and 45 +/- 15 kJ mol-1, respectively. The equilibrium constants were 4.99x10-4, 1.26x10-3 and 2.83x10-3 at 100oC, 150oC and 200oC, respectively.In the presence of added S02, ++ / at low ZnS pulp density (0.5 g L-1), the rate of ZnS dissolution in sulfuric acid increased due to the removal of H2S(aq) by reaction with S02(aq) or HS03-(aq). However the increase in rate was much less than that expected for the complete removal of H2S(aq). As with leaches of ZnS in sulfurous acid at ambient temperature, the inhibition was not attributable to the presence of residual H2S(aq) or to occlusion of unreacted ZnS by elemental sulfur, but is thought to be due to aqueous species that are like "H2S", in that they may react with Zn2+ to reprecipitate W.To this end, sulfane monosulfonates have again been postulated. The rate of ZnS dissolution, under conditions of low pulp density, was independent Of S02 concentration, suggesting that under these conditions the rate of the H2S / S02 reaction is also independent of the S02 concentration.At higher pulp densities (200 g L-1), similar to those expected in an industrial application, synthetic zinc sulfide leached rapidly in H2S04 / S02 solutions to approximately 60% zinc extraction, but was then inhibited by the large amounts of sulfur that formed. These caused agglomerates of zinc sulfide and elemental sulfur to form, even at temperatures below the melting point of sulfur, reducing the surface area of zinc sulfide available for reaction.Leaches of zinc concentrate at low pulp densities in H2S04 / S02 solutions and at temperatures above sulfur's meting point, were inhibited by the formation of molten sulfur. In contrast to synthetic zinc sulfide, zinc concentrate is readily wet by molten sulfur. Three surfactants orthophenylenediamine, quebracho and sodium ligninsulfonate were found to be reasonably effective in preventing molten sulfur from occluding the mineral surface. At high pulp densities, the H2S04 / S02 leach solution was unable to effect, the extraction of zinc from a zinc concentrate beyond approximately ++ / 10%.Integral S02 / H2S04 leaching of zinc concentrate was found not to be a commercial prospect. However, sidestream processing of zinc concentrate in an acid leach stage followed by reaction of generated H2S with S02 from the roasting stage to produce elemental sulfur may be viable. zinc sulfide, sulfur dioxide leaching.
6	Photoconductance and luminescence in ZnS due to infrared stimulation / Enomoto, Tadayoshi January 1975 (has links) No description available. Engineering Zinc sulfide Photoconductivity Luminescence
7	Optical, laser spectroscopic, and electrical characterization of transition metal doped ZnSe and ZnS nano- and microcrystals Kim, Changsu, January 2009 (has links) (PDF) Thesis (Ph. D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed Feb. 3, 2010). Additional advisors: Renato Camata, Derrick Dean, Chris M. Lawson, Andrei Stanishevsky, Sergey Vyazovkin. Includes bibliographical references (p. 133-140).
8	THE CONTROL OF SULFUR EMISSIONS DURING THE ROASTING OF METAL SULFIDES (LIME, ZINC). Morris, Robert Eugene. January 1985 (has links) No description available. Zinc sulfide. Metals -- Desulfurization. Sulfur compounds.
9	Understanding zinc sulfide activation mechanism and impact of calcium sulfate in sphalerite flotation Teng, Fucheng Unknown Date No description available. Zinc sulfide activation Surface adsorption Sphalerite flotation
10	AC electroluminescence in thulium-doped zinc sulfide Alshawa, Amer January 1988 (has links) No description available. AC Electroluminescence Thulium-Doped Zinc Sulfide

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