Alum Research Articles

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Integration of Redox Additive in H2SO4 Solution and the Adjustment of Potential Windows for Improving the Capacitive Performances of Supercapacitors

Nanoporous carbon material with large specific surface area (2208 m2 g–1) and high pore volume (4.15 cm3 g–1) has been synthesized by the template carbonization method, using a glucose–zinc nitrate complex as the precursor. Moreover, adding redox-mediated ferrous ammonium sulfate (FAS) to an H2SO4 electrolyte and regulating the potential windows in a two-electrode system can result in an ultrahigh specific capacitance of 1499 F g–1 at 10 A g–1 and a high energy density of 58.70 Wh kg–1, which are higher than those of the pristine one without any FAS. These remarkable improvements are attributed to Faradaic pseudocapacitances by the reversible Faradaic reactions of FAS as well as the edge active carbons showing excellent electrosorption toward Fe2+/3+, NH4+, and H+. Furthermore, regulating the potential windows also exerts crucial roles in the capacitive performances. It is revealed that the potential of the −0.5–0.5 V window can lead to optimum capacitance and energy efficiency.

Plant Colorants Interfere with Reflectance‐Based Vegetation Indices

Reflectance‐based vegetation indices are commonly used to quantify turfgrass color, estimate chlorophyll content, and make inferences about plant health. These methods are often substituted for visual color ratings, as they are well correlated but more objective. This study examines the utility of reflectance‐based vegetation indices for evaluating turfgrass treated with iron or plant colorants. In a study in Madison, WI, creeping bentgrass (Agrostis stolonifera L.) was treated with ammonium sulfate (2.4 or 9.8 kg nitrogen [N] ha−1), Turf Screen (untreated or 4.0 L ha−1), or ferrous sulfate (untreated or 12.2 kg Fe ha−1). Visual color ratings, chlorophyll index (CI), normalized difference vegetation index, normalized difference red edge, red, and near‐infrared (NIR) reflectance were able to detect differences in N rate. When colorant or iron was applied, however, reflectance methods could no longer detect these differences in N rate. In a study in Ithaca, NY, the application of four colorants increased visual color ratings. The pigments Harmonizer and Foursome also increased CI, whereas Turf Screen and Green Lawnger did not. Three of the four pigments decreased the chlorophyll content in leaf tissue from 1 July to 22 August, despite having greater or equal CI values. Spectral analysis of six colorants revealed that these products reflect light in the red and NIR regions and likely interfere with reflectance‐based vegetation indices, which measure leaf reflectance in these same regions of the spectrum. Overall, these findings suggest that reflectance‐based vegetation indices should not be used to make inferences about plant health in studies where a colorant or iron is applied.

Effects of iron sources on the growth and lipid/carbohydrate production of marine microalga Dunaliella tertiolecta

The effects of iron sources with different speciation and anionic moieties (ferric chloride, ferrous chloride, ferric EDTA, ferrous EDTA, ferric ammonium sulfate, and ferrous ammonium sulfate) on the cell growth and the production of energy storage (lipid and carbohydrate) from Dunaliella tertiolecta were investigated. The influence of iron dosage was also compared in the range from 0.65 mg/L (1X) to 6.5 mg/L (10X) as Fe concentration. Best cell growth rate was achieved when ferrous ammonium sulfate was used. Ferric EDTA resulted in higher lipid content than other iron sources, while ferrous ammonium sulfate favored the accumulation of carbohydrate among six iron sources. The accumulations of lipid and carbohydrate as energy storage competed each other and thus both contents did not increase together. In the presence of ferric EDTA, lipid content is increasing, while carbohydrate content is decreasing. On the contrary, lipid content is decreasing while carbohydrate is increasing in the presence of ferric ammonium sulfate. Because the overall carbohydrate content was larger than that of lipid, bioethanol production would be more advantageous than biodiesel production with the present D. tertiolecta strain if the carbohydrate in D. tertiolecta contains a high fraction of glucose with a good saccharification yield.

Spectrophotometric Microdetermination of Alzheimer’s Drug Memantine HCl in Biological Samples

Three simple, rapid, accurate and precise methods are described for the determination of memantine hydrochloride (MEM) by oxidation with cerium (IV) sulphate. Method (A) is based on the oxidation of the drug by a known excess amount of cerium (IV) sulphate and the unreacted Ce4+ is treated with ammonium ferrous sulphate, and the iron (III) sulphate produced is complexed with thiocyanate and measured at 480 nm. The methods B and C involve the addition of excess Ce4+ and determination of the unreacted oxidant by decrease the red color of chromotrope 2R (C2R) at a suitable λmax 528 nm for method B or decrease the orange pink color of rhodamine 6G (Rh6G) at a suitable λmax 525 nm for method C. Different variables affecting the reaction between memantine HCl and Ce4+ were studied and optimized. The molar absorptivity and Sandell sensitivity of the procedure were calculated in addition to limits of detection and quantification. Excipients used as additives in pharmaceutical formulations did not interfere in the proposed procedures, which successfully applied to the determination of MEM in bulk drug forms, tablets and spiked human plasma.

Hematoxylin and eosin staining of mucins of the gastrointestinal tract

An infrequent observation of assessing hematoxylin and eosin sections is the blue staining of mucins (for example those in goblet cells). This is believed to be due to a low concentration of alum and high pH of the hematoxylin staining solution. This study examines the incidence of blue mucin in various sites of the gastrointestinal tract using a low alum, high pH hematoxylin solution. The results are compared with a conventional hematoxylin solution, iron alum celestine blue method and an alcian blue (pH 2.5)-periodic acid-Schiff (AB-PAS) stain to characterize the type of mucin demonstrated. This study is the first to offer evidence that blue-stained mucin with low alum, high pH hematoxylin corresponds with carboxylated mucins as shown by the AB-PAS stain in the gastrointestinal tract. Iron alum celestine blue was also found to stain the mucin of a proportion of rectal biopsies and appendix as well as the carboxylated mucin of one duodenal biopsy.

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Spotlights: Faculty, Alum, and Courses

Spotlights: Faculty, Alum, and Courses

Spotlights: Faculty, Alum, and Courses

Oxygen vacancy ordering in SrFe0.25Co0.75O2.63perovskite material

SrFe0.25Co0.75O2.63 was synthesized by a solid-state reaction. Its structural study at room temperature using conventional X-ray as well as neutron powder diffraction, electron diffraction and high-resolution transmission electron microscopy is presented. An oxygen-vacancy ordering related to the "314" model known for the Sr3Y1Co4O10.5 oxide is proposed despite neither an A-site ordering nor an A-site mismatch. By means of Mössbauer spectroscopy, Mohr salt titration and the difference in the neutron cross sections of Fe and Co, a cation distribution within the crystallographic sites as the following Sr4(Fe0.143+Co0.363+)48h(Fe0.114+Co0.144+Co0.253+)48fO10.52 is suggested, highlighting a natural layered structure with Fe and Co in higher oxidation states in the oxygen replete layers than in the oxygen deficient ones.

Fixation of atmospheric CO2 as novel carbonate-(water)2-carbonate cluster and entrapment of double sulfate within a linear tetrameric barrel of a neutral bis-urea scaffold.

A meta-phenylenediamine-based disubstituted bis-urea receptor L1 with electron-withdrawing 3-chloro and electron-donating 4-methylphenyl terminals has been established as a potential system to fix and efficiently capture atmospheric CO2 as air-stable entrapment of an unprecedented {CO32--(H2O)2-CO32-} cluster (complex 1a) within its tetrameric long straight pillar-like assembly entirely sealed by n-TBA cations via formation of a barrel-type architecture. L1 and its isomeric 4-bromo-3-methyl disubstituted bis-urea receptor L2 have been found to entrap similar kinds of water-free naked sulfate-sulfate double anion (complexes 1b and 2a) by cooperative binding of urea moieties inside the two pairs of the inversion-symmetric linear tetrameric barrel of L1 and L2, respectively. On the other hand, in the presence of excess halides, L1 self-assembles to form hexa-coordinated fluoride complex 1c and tetra-coordinated bromide complex 1d, while L2 self-assembles to form penta-coordinated fluoride complex 2b in the solid state via semicircular receptor architectures and non-cooperative H-bonding interactions of urea moieties.

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Spotlights: Faculty, Alum, and Course

Combined Whole-Cell High-Throughput Functional Screening for Identification of New Nicotinamidases/Pyrazinamidases in Metagenomic/Polygenomic Libraries.

Nicotinamidases catalyze the hydrolysis of the amide bond in nicotinamide (NAM) to produce ammonia and nicotinic acid (NA). These enzymes are an essential component of the NAD+ salvage pathway and are implicated in the viability of several pathogenic organisms. Its absence in humans makes them a promising drug target. In addition, although they are key analytical biocatalysts for screening modulators in relevant biomedical enzymes, such as sirtuins and poly-ADP-ribosyltransferases, no commercial sources are available. Surprisingly, the finding of an affordable source of nicotinamidase from metagenomic libraries is hindered by the absence of a suitable and fast screening method. In this manuscript, we describe the development of two new whole-cell methods using the chemical property of one of the products formed in the enzymatic reaction (pyrazinoic or NA) to form colored complexes with stable iron salts, such as ammonium ferrous sulfate or sodium nitroprusside (SNP). After optimization of the assay conditions, a fosmid polygenomic expression library obtained from deep-sea mesophilic bacteria was screened, discovering several positive clones with the ammonium ferrous sulfate method. Their quantitative rescreening with the SNP method allowed the finding of the first nicotinamidase with balanced catalytic efficiency toward NAM (nicotinamidase activity) and pyrazinamide (pyrazinamidase activity). Its biochemical characterization has also made possible the development of the first high-throughput whole-cell method for prescreening of new nicotinamidase inhibitors by the naked eye, saving time and costs in the design of future antimicrobial and antiparasitic agents.

Significant glial alterations in response to iron loading in a novel organotypic hippocampal slice culture model.

Aberrant iron deposition in the brain is associated with neurodegenerative disorders including Multiple Sclerosis, Alzheimer’s disease and Parkinson’s disease. To study the collective response to iron loading, we have used hippocampal organotypic slices as a platform to develop a novel ex vivo model of iron accumulation. We demonstrated differential uptake and toxicity of iron after 12 h exposure to 10 μM ferrous ammonium sulphate, ferric citrate or ferrocene. Having established the supremacy of ferrocene in this model, the cultures were then loaded with 0.1–100 μM ferrocene for 12 h. One μM ferrocene exposure produced the maximal 1.6-fold increase in iron compared with vehicle. This was accompanied by a 1.4-fold increase in ferritin transcripts and mild toxicity. Using dual-immunohistochemistry, we detected ferritin in oligodendrocytes, microglia, but rarely in astrocytes and never in neurons in iron-loaded slice cultures. Moreover, iron loading led to a 15% loss of olig2-positive cells and a 16% increase in number and greater activation of microglia compared with vehicle. However, there was no appreciable effect of iron loading on astrocytes. In what we believe is a significant advance on traditional mono- or dual-cultures, our novel ex vivo slice-culture model allows characterization of the collective response of brain cells to iron-loading.

Efficient and selective hydrothermal extraction of zinc from zinc-containing electric arc furnace dust using a novel bifunctional agent

A novel bifunctional reagent of solid ammonium ferric sulfate dodecahydrate (NH4Fe(SO4)2·12H2O) was introduced in this paper to realize the efficient and selective extraction of zinc (Zn) from Zn-containing electric arc furnace (ZEAFD) by using a hydrothermal process. The bifunctional mechanism (extraction of Zn and removal of iron (Fe) in one step during hydrothermal leaching process) was elucidated in detail. The effects of solid NH4Fe(SO4)2·12H2O to ZEAFD after water washing (ZEAFD-w) mass ratio (RN/Z, g/g), hydrothermal temperature and time on Zn and Fe extraction were systematically investigated. It is shown that 93.2% Zn entered into the solution, while 98.4% Fe in the forms of NH4Fe3(SO4)2(OH)6 and Fe2O3 existed in the residue, suggesting that efficient and selective extraction of Zn from the ZEAFD can be realized when hydrothermal process was controlled at 220°C for 10h with RN/Z of 7:3.

Salt efflorescence in historic wooden buildings

Efflorescence and subflorescence are frequent phenomena occurring in buildings of porous inorganic materials such as bricks, stone, and concrete. Since the above phenomena have detrimental effects, they were the subject of detailed physicochemical investigations. Efflorescence on wooden material was commonly observed on collection artefacts treated with preservatives such as inorganic salts or organic pesticides. Occurrence of efflorescence in historical wooden buildings was less studied although it could cause serious conservation concerns. This paper describes an examination of chemical and mineralogical composition of salt efflorescence in wooden buildings. In situ analysis by X-ray fluorescence spectrometry was followed by investigation of plain efflorescence by infrared spectrometry, X-ray diffraction, electron microscopy, and electron probe microanalysis. Quantitative analysis of purified efflorescence was performed by plasma atomic emission spectrometry, ion chromatography and absorption spectrophotometry. In addition, depth-profiling of characteristic ions in wood was performed. The objects of study were a series of log houses of the Sverresborg Trondelag Folk Museum in Trondheim, Norway. It was found that the efflorescence in these buildings includes a series of metal ions, the most abundant being Al3+, Mg2+, Zn2+, K+, Na+, and Fe2+. In addition the ammonium ion is present in a large amount. The single detected anion is sulfate. Actually, the efflorescence consists of a mixture of simple and double sulfate salts of alum and Tutton’s compound types. Identified Tutton’s compounds are mohrite ((NH4)2Fe(SO4)2·6H2O), ammonium zinc sulfate hexahydrate ((NH4)2Zn(SO4)2·6H2O)), and boussingaultite ((NH4)2Mg(SO4)2·6H2O)). Among the alums, both tschermigite (NH4Al(SO4)2·12H2O), and potassium alum (KAl(SO4)2·12H2O)) were detected. The composition of efflorescence suggests that the wooden material was treated with a blend of sulfate salts ((NH4)2SO4, Al2(SO4)3·18H2O, MgSO4·7H2O, FeSO4·7H2O, ZnSO4·7H2O, and Na2SO4·10H2O)) for protection against fire and biological degradation. The efflorescence appeared as a consequence of water leakage through the roof that led to the dissolution of the salts contained in the wood, followed by evaporation and salt crystallization at the surface in the form of double sulfate salts. Although the occurrence of efflorescence in this case was accidental, a natural and more frequent cause of efflorescence could be the deliquescence of inorganic preservatives impregnated in the wood.

Synthesis of Novel Glycosyl 1,3,4-Thiadiazole Derivatives

A convenient and mild protocol for the synthesis of glycosyl 1,3,4-thiadiazole derivatives was developed, which involved the reaction of glycosyl isothiocyanate, hydrazine hydrate, and various aldehydes followed by oxidative cyclisation with ferric ammonium sulfate in methanol. 13 examples of different glycosyl 1,3,4-thiadiazole derivatives were prepared. Good yields (70–87%) have been achieved. The glycosyl 1,3,4-thiadiazole derivatives may find applications in medicinal chemistry and pharmaceutical industry.

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Spotlights: Faculty, Alum, and Courses

Effect of MgO content of synthetic slag on the formation of Mg-Al LDHs and sulfate resistance of slag-fly ash-clinker binder

The effect of MgO content of synthetic slag on the formation of layered double hydroxides (LDHs) and sulfate resistance of slag-fly ash blended cement was studied. Hydration products of alkali-activated synthetic slag were LDHs and C-S-H. The content of LDHs increased with MgO content of slag due to the introducing of Mg, and C-S-H content did not change much with addition of different slags. Sulfate resistance of slag-fly ash-clinker mortar and paste under wetting-drying cycles increased with MgO content of synthetic slag, due to the favored formation of LDHs by high MgO content, denser microstructure and less porosity. There is no correlation between MgO content of slag and mass change and porosity of specimens during wetting-drying cycles in sulfate solution.

Validation of Ti(III) as a reducing agent in the chemiluminescent determination of nitrate and nitrite in seawater

Titanium (III) trichloride is validated here for the quantitative conversion of all nitrate plus nitrite in seawater to nitric oxide gas, thereby providing an alternative to the typically used reducing agent, ferrous ammonium sulfate plus ammonium molybdate, in the chemiluminescent detection of nitrate plus nitrite at the nanomolar level. We find that both Fe(II)+Mo(VI) and Ti(III) methods yield identical results for standards and seawater samples over a validated concentration range of 1 to 1000nM, and are both in agreement with traditional colorimetric results. Benefits of the Ti(III) reduction chemistry are: simpler preparation, decreased ammonium contamination in a laboratory that measures low-level nutrients, 30% reduction of the sulfuric acid catalyst, and a higher sample through-put. Most importantly, though, this work can be considered the first step on a path toward a much-needed, direct measurement of dissolved organic nitrogen concentrations, as has already been achieved for dissolved organic carbon.

Treatment of ferric sulfate waste solutions for the production of ammonium ferric sulfate dodecahydrate

The process of precipitation of ammonium ferric sulfate dodecahydrate (NH4Fe(SO4)2·12H2O) from waste solutions, obtained during autoclave oxidation of pyrite concentrate has been studied. A special feature of these solutions is the high concentration of Fe(III) ions (>60 g L–1) and sulfuric acid (> 61 g L–1). Based on comprehensive laboratory tests, the study determined the optimal conditions for the precipitation process of ammonium ferric sulfate dodecahydrate (AFS) by salting out with ammonium sulfate: reagent excess (100% over stoichiometric, temperature 276 K, time 1 h). The process should be conducted under continuous slow stirring which would not allow forming of large crystals that are difficult to remove from the reactor. The test work confirmed that high quality crystals can be produced by prior oxidation of Fe(II) to Fe(III) ions using hydrogen peroxide and copper removal from the solution.