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Thermo-XRD analysis of the adsorption of Congo-red by montmorillonite saturated with different cations 总被引:2,自引:0,他引:2
The adsorption of the organic anionic dye Congo red (CR) by montmorillonite saturated with Na+, Cs+, Mg2+, Cu2+, Al3+ and Fe3+ was investigated by XRD of unwashed and washed samples after equilibration at 40% humidity and after heating at 360 and at 420°C. The clay was treated with different amounts of CR, most of which was adsorbed. Clay samples, untreated with CR, after heating showed collapsed interlayer space. Unwashed and washed samples, which contained CR, before heating were characterized by three peaks or shoulders, labeled A (at 0.96-0.99 nm, collapsed interlayers), B (at 1.24-1.36 nm) and C (at 2.10-2.50 nm). Peak B represents adsorbed monolayers of water and dye anions inside the interlayer spaces. Peak C represents interlayer spaces with different orientations of the adsorbed water and organic matter. Diffractograms of samples with small amounts of dye were similar to those without dye showing peak B whereas diffractograms of most samples with high amounts of dye showed an additional peak C. Heated unwashed and washed samples were also characterized by three peaks or shoulders, labeled A' (at 0.96 nm), B' (at 1.10-1.33 nm) and C' (at 1.61-2.10 nm), representing collapsed interlayers, and interlayers with charcoal composed of monolayers or multilayers of carbon. When the samples were heated from 360 to 420°C some of the charcoal monolayers underwent rearrangement to multilayers. In the case of Cu the charcoal decomposed and oxidized. The present results show that most of the adsorbed dye was located inside the interlayer space.This revised version was published online in November 2005 with corrections to the Cover Date. 相似文献
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Yermiyahu Z. Landau A. Zaban A. Lapides I. Yariv S. 《Journal of Thermal Analysis and Calorimetry》2003,72(2):413-441
The adsorption of the anionic dye congo-red (CR) by Na-, Cs-, Mg-, Al- and Fe-montmorillonite was studied by simultaneous
DTA-TG. Thermal analysis curves of adsorbed CR were compared with those of neat CR. The oxidation of neat CR is completed
below 570°C. Thermal analysis curves of adsorbed CR show three regions representing dehydration of the clay, oxidation of
the organic dye and dehydroxylation of the clay together with the oxidation of residual organic matter. The oxidation of the
dye begins at about 250°C with the transformation of organic H atoms into water and carbon into charcoal. Two types of charcoal
are obtained, low-temperature and high-temperature stable charcoal. The former gives rise to an exothermic peak in the second
region of the thermal analysis and the latter in the third region. The exchangeable metallic cation determines the ratio between
the low-temperature and high-temperature stable charcoal, which is formed. With increasing acidity of the exchangeable metallic
cation higher amounts of high-temperature stable charcoal are obtained. It was suggested that aromatic compounds p bonded
to the oxygen plane of the clay framework are converted into charcoal, which is burnt at about 550-700°C. With increasing
surface acidity of the clay more species of CR are protonated. Only protonated dye species can form p bonds with oxygen plane
and are converted to high-temperature stable charcoal during the thermal analysis. The thermal behavior of the dye complex
of Cu-montmorillonite is different probably due to the catalytic effect of Cu.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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A new sulfonated copolymers containing congo red groups were synthesized as a potential electrolyte for high temperature PEFCs. The resulting cross-linked sulfonated hybrid congo red membranes showed greatly improved water stability in comparison with the uncrosslinked ones while high proton conductivity was maintained. sulfonated membranes have been tested with respect to fuel cell performance. Short term fuel cell test for 100 hr gave a stable performance. These membranes are less expensive compared to Nafion. New sulfonated proton exchange composites membranes were used biological fuel cells. Molasses which is the waste of sugar factory, was used in anode as fuel and different bacteria species was sowing. Potential change was reported in biological fuel cells. 相似文献
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