Yecid P. Jiménez scite author profile

Non-modified (ZnO) and modified (Fe2O3@ZnO and CuO@ZnO) structured films are deposited via aerosol assisted chemical vapor deposition. The surface modification of ZnO with iron or copper oxides is achieved in a second aerosol assisted chemical vapor deposition step and the characterization of morphology, structure, and surface of these new structured films is discussed. X-ray photoelectron spectrometry and X-ray diffraction corroborate the formation of ZnO, Fe2O3, and CuO and the electron microscopy images show the morphological and crystalline characteristics of these structured films. Static water contact angle measurements for these structured films indicate hydrophobic behavior with the modified structures showing higher contact angles compared to the non-modified films. Overall, results show that the modification of ZnO with iron or copper oxides enhances the hydrophobic behavior of the surface, increasing the contact angle of the water drops at the non-modified ZnO structures from 122° to 135° and 145° for Fe2O3@ZnO and CuO@ZnO, respectively. This is attributed to the different surface properties of the films including the morphology and chemical composition.

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Accelerating Copper Leaching from Sulfide Ores in Acid-Nitrate-Chloride Media Using Agglomeration and Curing as Pretreatment

Hernández

Dupont

Herreros

et al. 2019

Minerals

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This work investigates the effect of an agglomeration and curing pretreatment on leaching of a copper sulfide ore, mainly chalcopyrite, using mini-columns in acid-nitrate-chloride media. Ten pretreatment tests were conducted to evaluate different variables, namely the addition of nitrate as NaNO 3 (11.7 and 23.3 kg/ton), chloride as NaCl (2.1 and 19.8 kg/ton), curing time (20 and 30 days) and repose temperature (25 and 45 • C). The optimum copper extraction of 58.6% was achieved with the addition of 23.3 kg of NaNO 3 /ton, 19.8 kg of NaCl/ton, and after 30 days of curing at 45 • C. Under these pretreatment conditions, three samples of ore were leached in mini-columns. The studied parameters were temperature (25 and 45 • C) and chloride concentration (20 and 40 g/L). The optimum copper extraction of 63.9% was obtained in the mini-column leaching test at 25 • C, with the use of 20 g/L of chloride. A higher temperature (45 • C) and a higher chloride concentration (40 g/L) negatively affected the extraction. The pretreatment stage had favorable effects, in terms of accelerating copper dissolution and improving leaching of copper sulfide ore in acid-nitrate-chloride media. Waste salts from caliche industry and waste brine from reverse osmosis can be used for providing the nitrate and chloride media.

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Solid–liquid equilibrium of K2SO4 in solvent mixtures at different temperatures

Jiménez

Taboada

Galleguillos

2009

Fluid Phase Equilibria

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Hydrothermally synthesized MnO2 nanowires and their application in Lead (II) and Copper (II) batch adsorption

Claros

Kuta

El-Dahshan

et al. 2021

Journal of Molecular Liquids

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Partitioning of perrhenate anion by aqueous two-phase systems using design of experiments methodology

Muruchi

Jiménez

2017

Journal of Molecular Liquids

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Yecid P. Jiménez

AACVD Synthesis and Characterization of Iron and Copper Oxides Modified ZnO Structured Films

Accelerating Copper Leaching from Sulfide Ores in Acid-Nitrate-Chloride Media Using Agglomeration and Curing as Pretreatment

Solid–liquid equilibrium of K2SO4 in solvent mixtures at different temperatures

Hydrothermally synthesized MnO2 nanowires and their application in Lead (II) and Copper (II) batch adsorption

Partitioning of perrhenate anion by aqueous two-phase systems using design of experiments methodology

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