Three-dimensionally ordered macroporous metal oxide–silica composite for removal of mercaptan

A series of 3DOM and non-3DOM metal oxide–silica composites were prepared and tested dynamically in a packed-bed reactor at room temperature to remove ethanethiol from a gas stream containing ethyl mercaptan in moist N_2.The obtained sorbents were characterized using X-ray diffraction, scanning electron microscopy, transmission electron microscopy, and nitrogen adsorption–desorption techniques. The experimental results showed that the adsorption ability of different kinds of metal oxide–silica composites with 3DOM structure decreased in the sequence: 3D-CuO/SiO₂ > 3D-NiO/SiO₂ > 3D-Co₃O₄/SiO₂ > 3D-ZnO/SiO₂. The best ratio of CuO to SiO₂ of 3DOM copper–silicon oxide sorbents for ethanethiol removal was found to be 1:2. The 3DOM structure could improve the removal activity of sorbents remarkably because of the high porosity with ordered interconnected macropores as well as the large surface area and high dispersion of CuO. It was also found that a moist atmosphere greatly benefited the adsorption of ethanethiol at ambient condition.     

Melt crystallization of CuFe2S3 in the Cu–Fe–S system

The possibility of melt crystallization of the compound with CuFe₂S₃ composition was established by carrying out quasiequilibrium directional crystallization. The initial liquid had the following composition: Fe 33.3, Cu 16.7, and S 50.0 at.%. The produced sample consisted of three zones with different chemical compositions. The volume fraction of the first zone was 6 %, the second zone was 77 % and the third zone was 17 %. The composition of the first zone corresponded to pyrrhotite solid solution (poss). The second zone had the constant composition CuFe₂S₃. The third zone had variable composition. In the article this zone is not described. We constructed the curves describing the variations in the composition of solid ingot and melt during poss and CuFe₂S₃ crystallization, calculated the distribution coefficients of components, and determined the equation of phase reaction while transferring from the first to the second zone. A polythermal cross-section of phase diagram of the Cu–Fe–S system was built using the directional crystallization and thermal analysis of specially synthesized samples along the crystallization path. It is shown that stoichiometric CuFe₂S₃ compound crystallized from melt and the cross-section of phase diagram along the crystallization path is quasibinary. Thus, liquidus surface of the Fe–Cu–S system contains the region of primary crystallization of CuFe₂S₃, which is located between the crystallization fields of poss and intermediate solid solution.     

Graphene oxide–starch composite as an efficient adsorbent for removing Cu(II): removal performance and adsorption mechanism

Research on Chemical Intermediates - Water pollution caused by heavy metals is a severe environmental issue. In this work, a graphene oxide–starch composite (GO/WS) was facilely prepared via...     

Properties and consolidation of nanocrystalline 3Cu–Al2O3 composite by rapid sintering

Nanopowders of Cu and Al₂O₃ were synthesized from 3CuO and 2Al powders by high-energy ball milling. Nanocrystalline Al₂O₃ reinforced composite was consolidated by pulsed-current activated sintering method within 2 min from mechanically synthesized powders of Al₂O₃ and Cu. The relative density of the composite was 96%. The average hardness and fracture toughness values obtained were 540 kg/mm² and 6.3 MPa m^1/2, respectively.

     

Thermoanalytical and dilatometric studies of the Al2O3–Cu–Mo hybrid composite

Journal of Thermal Analysis and Calorimetry - The present research is focused on the characterization of the composites from Al2O3–Cu–Mo system. The composites were prepared by slip...     

Removal of permethrin pesticide from water by chitosan–zinc oxide nanoparticles composite as an adsorbent

Synthesis of chitosan–ZnO nanoparticles (CS–ZnONPs) composite beads was performed by a polymer-based method. The resulting bionanocomposite was characterized by scanning electron microscopy (SEM), X-ray powder diffraction (XRD) spectroscopy and infrared spectroscopy (FT-IR). Adsorption applications for removal of pesticide pollutants were conducted. The optimum conditions, including adsorbent dose, agitating time, initial concentration of pesticide and pH on the adsorption of pesticide by chitosan loaded with zinc oxide nanoparticles beads were investigated. Results showed that 0.5 g of the bionanocomposite, in room temperature and pH 7, could remove 99% of the pesticide from permethrin solution (25 ml, 0.1 mg L⁻¹), using UV spectrophotometer at 272 nm. Then, the application of the adsorbent for pesticide removal was studied in the on-line column. The column was regenerated with NaOH solution (0.1 M) completely, and then reused for adsorption application. The CS–ZnONPs composite beads appear to be the new promising material in water treatment application with 56% regeneration after 3 cycles.     

Transformation of a Fe–Mn oxide into a ferromagnetic α-Fe2O3

Journal of Thermal Analysis and Calorimetry - This paper combines numerical and experimental to study the heat transfer by free convection for nanofluids of molten salt within a cavity with...     

Study on Catalytic Wet Oxidation of H2S into Sulfur on Fe/Cu Catalyst

A wet catalytic oxidation at room temperature was investigated with solution containing ferric, ferrous and cupric ions for H2S removal. The experiments were carried out in a two step process, and the results obtained show that the removal efficiency of H2S can always reach 100% in a 300 mm scrubbing column with four sieve plates, and the regeneration of ferric ions in 200 mm bubble column can match the consumed ferric species in absorption. Removal of H2S, production of elemental sulfur and regeneration of ferric, cupric ions can all be accomplished at the same time. No raw material is consumed except O2 in flue gas or air, the process has no secondary pollution and no problem of catalyst degradation and congestion.     

Efficient removal of oil pollutant via simultaneous adsorption and photocatalysis using La–N–TiO2–cellulose/SiO2 difunctional aerogel composite

Research on Chemical Intermediates - Nano-TiO2 photocatalysts doped with La–N(La–N–TiO2) were prepared by solgel method. The La–N–TiO2 was loaded on the cellulose/SiO2...     

Sol–gel synthesis of a humic acid-silica gel composite material as low-cost adsorbent for thorium and uranium removal

In the present work, three neutral ^99mTc(CO)₃ complexes of nitroimidazole were synthesized and their potential to detect tumor hypoxia is evaluated in vivo. Triazole derivatives of 2-, 4- and 5-nitroimidazole were synthesized via ‘click chemistry’ route. The ligands synthesized were characterized and subsequently radiolabeled using [^99mTc(CO)₃(H₂O)₃]⁺ precursor complex to obtain corresponding neutral ^99mTc(CO)₃ complexes in >90 % radio chemical purity. The complexes were subsequently evaluated in Swiss mice bearing fibrosarcoma tumor and in vivo distribution observed was thoroughly analyzed. All complexes showed uptake in tumor, however, contrary to general expectations, the 5-nitroimidazole complex showed significantly higher tumor uptake (p < 0.05) at 30 min and 60 min p.i., compared to the 2-nitroimidazole counterpart. Though a conclusive explanation for this observation could not be obtained, present study underlined the significance of evaluating nitroimidazole radiotracers other than 2-nitroimidazole for detecting tissue hypoxia.     

Thermal transformations of Cu–Mg (Zn)–Al(Fe) hydrotalcite-like materials into metal oxide systems and their catalytic activity in selective oxidation of ammonia to dinitrogen

Layered double hydroxides (LDHs) containing Mg²⁺, Cu²⁺ or Zn²⁺ cations in the Me^II positions and Al³⁺ and Fe³⁺ in the Me^III positions were synthesized by co-precipitation method. Detailed studies of thermal transformation of obtained LDHs into metal oxide systems were performed using high temperature X-ray diffraction in oxidising and reducing atmosphere, thermogravimetry coupled with mass spectrometry and temperature-programmed reduction. The LDH samples calcined at 600 and 900 °C were tested in the role of catalysts for selective oxidation of ammonia into nitrogen and water vapour. It was shown that all copper congaing samples presented high catalytic activity and additionally, for the Cu–Mg–Al and Cu–Mg–Fe hydrotalcite samples calcined at 600 °C relatively high stability and selectivity to dinitrogen was obtained. An increase in calcination temperature to 900 °C resulted in a decrease of their catalytic activity, possibly due to formation of well-crystallised metal oxide phases which are less catalytically active in the process of selective oxidation of ammonia.     

Study of the Cu–Li–Mg–H system by thermal analysis

Finite fossil-fuel supplies, nuclear waste and global warming linked to CO₂ emissions have made the development of alternative/‘green’ methods of energy production, conversion and storage popular topics in today’s energy-conscious society. These crucial environmental issues, together with the rapid advance and eagerness from the electric automotive industry have combined to make the development of radically improved energy storage systems a worldwide imperative. CuMg₂ has an orthorhombic crystal structure and does not form a hydride: it reacts reversibly with hydrogen to produce Cu₂Mg and MgH₂. However, CuLi _x Mg_2−x (x = 0.08) has a hexagonal crystal structure, just like NiMg₂, a compound known for its hydrogen storage properties. NiMg₂ absorbs up to 3.6 wt% of H. Our studies showed that not only CuLi _x Mg_2−x absorbs a considerable amount of hydrogen, but also starts releasing it at a temperature in the range of 40–130 °C. In order to determine the properties of the hydrogenated CuLi _x Mg_2−x , absorption–desorption, Differential scanning calorimeter and thermo-gravimetric experiments were performed. Neutron spectra were collected to elucidate the behavior of hydrogen in the Li-doped CuMg₂ intermetallic. Using DFT calculations we were able to determine the best value for x in CuLi _x Mg_2−x and compare different possible structures for the CuLi _x Mg_2−x hydride.     

Simultaneous synthesis and consolidation of nanocrystalline 3Co–Al2O3 composite by pulsed-current-activated heating,and the mechanical properties of the material

Nanopowders of CoO and Al were fabricated by high-energy ball milling. Highly dense nanostructured 3Co–AlO₃ composite was then synthesized and consolidated, within 2 min, from mechanically activated powder (3CoO and Al) under 80 MPa pressure, by a pulsed-current-activated sintering method. The advantage of this process is that it enables very rapid densification to near theoretical density and prevents grain growth in nanostructured materials. The grain sizes of Co and Al₂O₃ in the composite were calculated. The average hardness and fracture toughness of nanostructured 3Co–AlO₃ composite were also investigated.     

Enhanced corrosion and wear resistance of Zn–Ni/Cu–Al2O3 composite coating prepared by cold spray

Journal of Solid State Electrochemistry - In order to improve the cathodic protection and wear resistance of cold spraying Zn-based coatings, Zn–Ni/Cu–Al2O3 composite coating was...     

A complementary and synergistic effect of Fe-Zn binary metal oxide in the process of high-temperature fuel gas desulfurization

57Fe Mossbauer spectroscopy was used to investigate the evolution of Fe-Zn binary metal oxide sorbent in the process of high-temperature fuel gas desulfurization. The results of phase analyses show that Fe-Zn binary metal oxide sorbent is rapidly reduced in hot fuel gas and decomposed to new phases of highly dispersed microcrystalline elemental iron and zinc oxide, both of which become the active desulfurization constituents. A complementary and synergistic effect between active iron acting as a high sulfur capacity constituent and active zinc oxide acting as a deep refining desulfurization constituent exists in this type of sorbent for hot fuel gas desulfurization.     

Thermal analysis of the oxide–chloride systems GdCl3–Gd2O3 and GdCl3–KCl–Gd2O3

Journal of Thermal Analysis and Calorimetry - The thermal analysis of the oxide–chloride systems GdCl3–Gd2O3 and GdCl3–KCl–Gd2O3 with the Gd2O3 content up to...     

Thermodynamic stability of solid phases in the system Cu–O–Al2O3 by means of the EMF and DSC-TGA techniques

Journal of Solid State Electrochemistry - Thermodynamic properties of solid phases in the Cu–O–Al2O3 system were measured by means of the EMF method with oxygen concentration galvanic...