Isolation and spectroscopic characterization and molecular modeling of novel compounds obtained from latex of calotropis procera
Calotropis procera R. Br. (Asclepiadaceae) is a well-known medicinal plant with leaves, roots, and bark being exploited by popular medicine to fight many human and animal diseases. This work deals with the fractionation of the crude latex produced by the green parts of the plant and aims to evaluate its toxic effects upon egg hatching and larval development of Aedes aegypti. The whole latex was shown to cause 100% mortality of 3rd instars within 5 min. It was fractionated into water-soluble dialyzable (DF) and non-dialyzable (NDF) rubber-free materials. Both fractions were partially effective to prevent egg hatching and most of individuals growing under experimental conditions died before reaching 2nd instars or stayed in 1st instars. Besides, the fractions were very toxic to 3rd instars causing 100% mortality within 24 h. When both fractions were submitted to heat-treatment the toxic effects were diminished considerably suggesting low thermostability of the toxic compounds. Polyacrylamide gel electrophoresis of both fractions and their newly fractionated peaks obtained through ion exchange chromatography or desalting attested the presence of proteins in both materials. When submitted to protease digestion prior to larvicidal assays NDF lost most of its toxicity but DF was still strongly active. It may be possible that the highly toxic effects of the whole latex from C. procera upon egg hatching and larvae development should be at least in part due to its protein content found in NDF.
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Study of ultrasonic, volumetric and transport properties of Anisic aldehyde - acetate mixtures at different temperatures
Densities, viscosities and ultrasonic velocities have been measured for the binary mixtures of anisic aldehyde with methyl acetate, ethyl acetate and n- butyl acetate over the entire composition range at 303.15,308.15,313.15 and 318.15K .The excess values were correlated using Redlich – Kister polynomial equation. The excess values were examined in order to have an insight into the inter molecular interactions among the components of the binary mixtures that lead to the possible dipole- dipole interactions or hydrogen bond formation between unlike molecules. Excess molar volumes, deviation in adiabatic compressibilities, deviation in viscosity and excess free length are negative in the whole composition range for all the systems at all temperatures.
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Synthesis, Analysis and Antimicrobial Screening of N-Salicyl-O-Hydroxyphenyleneiminato Co (II) Complex
A Schiff base ligand derived from salicylaldehyde and 2-aminophenol and its complex of Co(II) were synthesized. The ligand and the complex were characterized by elemental analysis, conductivity measurement, FT-IR and melting point or decomposition temperature measurements. The elemental analysis data show the formation of 1:1 metal to ligand ratio. The experimental data show that the ligand act as a tridentate ligand (ONO). The Schiff base and the complex were screened for antibacterial and antifungal activity. The complex shows higher activity than the free ligand.
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A Novel Crystal and Molecular Structure of 7-(4-Chloro-Phenyl)-5-Phenyl-4-Pyrrolidin-1-yl-7H-Pyrrolo[2,3-d]Pyrimidine
In the title compound, C22H19ClN4, the pyrrole and pyrimidine rings form a dihetrocyclic fused pyrrolo-pyrimidine ring system which is almost co-planar; dihedral angle between two ring planes is 6.2º, to which five membered pyrrolidine ring is substituted, which is puckered to attain half chair conformation. Two other rings chloro-phenyl and phenyl are substituted at the 7 and 9 positions respectively in the fused ring system. Chloro-phenyl ring also shares the plane of fused ring system. (Dihedral angle between two ring system is 12.4º.) Crystal packing is stabilized due to ?-? interaction observed between pyrrole and chloro-phenyl ring of its symmetry related molecules (centroid-centroid distance: 3.8641 Å). Intramolecular C-H…N hydrogen bond is also observed in the molecular structure.
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Analytical method development and validation of HPLC method for the determination of omeprazole in capsule dosage form
Omeprazole is chemically 5-methoxy-2-[[(4-methoxy-3,5-dimethyl-2-pyridinyl) methyl] sulfinyl ]-1H benzimidazole. It works by blocking acid production in the stomach. This medication is known as a proton pump inhibitor (PPI). It is used to treat acid-related stomach and throat (esophagus) problems and also used in the treatment of dyspepsia, peptic ulcer disease (PUD), Gastro esophageal reflux disease (GORD/GERD), and Laryngopharyngeal reflux (LPR) and Zollinger–Ellison syndrome. From the literature survey conducted there is no simple method reported for the determination of Omeprazole in capsule dosage form. Hence an attempt has been made to develop a HPLC method for the determination of Omeprazole is capsule dosage form and validate the developed method. The method was validated with respect to linearity, precision, system suitability, and specificity. The response was linear in concentration range of 9.6µg/ml to15.6µg/ml. The value of correlation coefficient found to be 0.9992. The R.S.D% value for repeatability precision studies was 0.8500. For system suitability it is essential for the assurance of the quality performance of chromatographic system so five injections of standard drug solution were given to the system. The %RSD value for system suitability was 0.1645.
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Chemical speciation and mobility of heavy metal (Pb, Cd, Zn, Mn) pollutants in crude oil contaminated soils of Niger Delta, Nigeria
Chemical speciation and mobility factor indices of Pb, Cd, Zn and Mn were assessed in a crude oil contaminated soil and compared with control (uncontaminated) soil. The assessment was done to evaluate the impact of crude oil contamination on the bioavailability of metals in a soil matrix. Soil was collected in triplicate from four locations (three reflecting the crude oil impacted area and one uncontaminated soil as control). Soil was collected around a crude oil transfer pipeline within Bdere community in Ogoniland, Nigeria, within the month of August 2017. Fractional concentration of metals was determined using a GBC Avanta PM6600 atomic absorption spectrophotometer. In the oil contaminated soil, Zn (41.13%) and Mn (77.54%) were predominantly associated to the residual fractions while Pb (29.45%) and Cd (25.53%) were prevalent in the amorphous Fe-oxide and plant available fractions respectively. Similarly, the uncontaminated soil depicted the residual fractions of Zn (49.43%) and Mn (48.63%) to be the most important while Pb (56.17%) and Cd (62.16%) were both predominantly affiliated to plant available fractions. Heavy metal mobility factor indices reflected the order: (Zn>Cd>Pb>Mn) and (Cd>Mn>Zn>Pb) for crude oil impacted and uncontaminated soils respectively. Despite the prevalence of heavy metals to the inert fractions, the significant affiliation of metals to the readily mobile fractions of crude oil contaminated soil reflected the order: Pb (10.71%), Cd (25.53%), Zn (40.22%) and Mn (3.52%) which further suggested that these metals may have emanated from the introduction of crude oil into the soil matrix.
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Comparative study of transesterification processes for biodiesel production(A review)
Energy demand is increasing while fossil fuels, the main source of energy, threaten their depletion and consequently their market value increases. In addition to this crisis, climate change and air pollution caused by the combustion emissions of fossil fuels pose problems of increased greenhouse effect. Due to the environmental problems caused by the use of fossil fuels, attention has been paid to the production of biodiesel as an alternative to petrodiesel. Biodiesel is an environmentally friendly alternative diesel fuel made from renewable resources made from vegetable oils and animal fats. It is a renewable energy source that seems to be an ideal solution for global energy needs. The current method of biodiesel production is the transesterification of the inedible oil with an alcohol (methanol or ethanol) in the presence of a catalyst or not. The transesterification reaction is very sensitive to the parameters and oil nature such as the acid composition and the free fatty acid content. Other variables include reaction such as temperature, ratio of alcohol to vegetable oil, catalyst, and intensity of mixing, purity of reagents. The development of biofuels creates new agricultural sectors and could offer new niche markets for farmers in exploitable areas. This study aims to make a comparative study transesterification processes for biodiesel production.
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The potentiality of process intensifying techniques for improvement of inherent safety in chemical processing
Chemical industries are continuously faced with increasing challenges of safety requirements in plant design and operation. Consequently, more and more attention has been focused on developing greener, safer and efficient chemical processes employing process intensifying methodologies and equipment. While engineered safety devices can be added on to a plant as risk mitigation measures, safety is most reliably ensured by developing inherently safer techniques. This paper reviewed some of the process intensification approaches that could be utilized by chemical industries to improve inherent safety in plant design and operation protocols. Although the potentials of the techniques described in this review for intensification of chemical processing have already been proven in the laboratories, however their application on the industrial scale still presents a difficult challenge.
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Effect of Ceria on the properties of Ceria Stabilized Zirconia/Alumina /Ceria (ZTA/Ce) composites
Ceria stabilized zirconia toughened alumina (ZTA) /ceria composites for industrial ceramic applications have been studied. Five samples were prepared, ceria was added to ceria stabilized zirconia/alumina composites by various amounts of (0-20 wt. %). The fabricated samples were sintered at 1600 - 1700oC. The sintered samples were characterized for their physical properties such as bulk density and apparent porosity. The samples were characterized by XRD, SEM and TEM and mechanical tests. It was observed that the formation of cerium hexaaluminate and cerium zirconate in the studied bodies deteriorates the Vicker hardness and fracture toughness of the ceria stabilized ZTA bodies.
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Evaluation of physicochemical properties and soda pulping of Nypa fruticans frond and petiole
The physicochemical parameters of the Nypa fruticans ( Nypa palm) frond and petiole have been determined. The fibre dimensions determined were: fibre length, fibre diameter, cell wall thickness, lumen diameter, slenderness ratio, flexibility ratio and Runkel ratio. Chemical composition determined were lignin contents, cellulose contents and the ash contents. Soluble contents were also determined. Petiole contained more water soluble than the frond but the frond contained more 1% NaOH soluble. The solubles in 1:2 ethanol-benzene were of the same order for both samples. Soda pulps were produced at the pulping temperature of 120oC using 8% and 12% NaOH as cooking liquors at the pulping time of 30 and 60min. The pulps obtained were characterized by determining the pulp yield and residual Klason lignin. Pulp yield and residual Klason lignin decreased with increase in the concentration of the pulping liquor and the cooking time. These results obtained indicate that Nypa fruticans frond and petiole left as waste in Nigeria can be exploited for the production of commercial pulps for several industrial applications.
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