Investigación de la aplicación del niosoma como nanoportador de extracto de salvia (Salvia officinalis L.) por espectroscopia y quimiometría

Objetive: Investigation the application of niosome as a nanocarrier for sage (Salvia officinalis L.) extract by spectroscopy and chemometrics. Material and Method: In this study,niosome nanoparticles containing cholesterol and without cholesterol were prepared by thin film hydration method. Ethanol extract of sage was extracted by microwave and loaded inside the niosome nanoparticles. The size of the nanoparticles was determined by field imaging scanning electron microscopy (FE-SEM). The zeta potential of the niosomes was determined by Dynamic light scattering (DLS). to investigate the type of interactions between surfactants and cholesterol used in the niosome structure, Fourier transform infrared spectroscopy (FT-IR) was used. Drug release was investigated for 5 consecutive days in phosphate buffer salin (PBS) 0/01 M with pH=7.4 at T=370C. Results:The zeta potential of the niosomes with cholesterol and without cholesterol was -24/1&-15/6 mv . The loading capacity of the drug in the concentration range (1-3% w / w of niosum) for both types of niosome was between 61% and 93%. Conclusion: This results show that the release rate of niosme with cholesterol is significantly more regular and lower than of niosome without cholesterol. In general, it can be concluded that niosome can be a suitable nano-carrier for delivery of hydrophilic extract of the sage.Objetivo: Investigar la aplicación del niosoma como nanoportador de extracto de salvia (Salvia officinalis L.) mediante espectroscopia y quimiometría. Material y método: En este estudio, se prepararon nanopartículas de niosoma que contienen colesterol y sin colesterol mediante el método de hidratación de película fina. El extracto etanólico de salvia se extrajo mediante microondas y se cargó dentro de las nanopartículas de niosoma. El tamaño de las nanopartículas se determinó mediante microscopía electrónica de barrido de imágenes de campo (FE-SEM). El potencial zeta de los niosomas se determinó mediante dispersión dinámica de luz (DLS). Para investigar el tipo de interacciones entre los tensioactivos y el colesterol utilizados en la estructura del niosoma, se utilizó la espectroscopia infrarroja por transformada de Fourier (FT-IR). Se investigó la liberación de fármaco durante 5 días consecutivos en tampón fosfato salina (PBS) 0/01 M con pH = 7,4 a T = 37ºC. Resultados: El potencial zeta de los niosomas con colesterol y sin colesterol fue de -24 / 1 y -15 / 6 mv. La capacidad de carga del fármaco en el rango de concentración (1-3% p / p de niosum) para ambos tipos de niosoma estuvo entre 61% y 93%. Conclusión: Estos resultados muestran que la tasa de liberación de niosma con colesterol es significativamente más regular y más baja que la de niosoma sin colesterol. En general, se puede concluir que el niosoma puede ser un nanoportador adecuado para el suministro de extracto hidrófilo de la salvia

Quantitative determination of formaldehyde by spectrophotometry utilizing multivariate Curve resolution alternating least squares

Formaldehyde is a vastly used material in industry. Nowadays, it is proven that formaldehyde is toxic and carcinogenic. Thus providing a reliable method for its quantitative determination is very important. This study proposes a UV-Vis spectrophotometric based method for determination of formaldehyde. The method is based on reaction between the analyte and Fluoral P. Spectral changes during the time were mathematically analyzed using a chemometrics technique, called "multivariate curve resolution alternating least squares" (MCR-ALS). Data processing by this chemometrics technique enhanced the reliability of the UV-Vis spectrophotometry for quantitative analysis of formaldehyde in real samples. KEY WORDS: Formaldehyde, Fluoral P, UV-Visible, Multivariate curve resolution alternating least squares; Quantitative analysis Bull. Chem. Soc. Ethiop. 2012, 26(2), 299-304.DOI: http://dx.doi.org/10.4314/bcse.v26i2.1

Nanosilica reinforced epoxy floor coating composites: preparation and thermophysical characterization

In this study, flooring grade epoxy/nanoSiO2 nanocomposites were prepared by in-situ polymerization method. Nano silica was treated by coupling agent in order to surface treating and introducing of reactive functional groups to achieving adequate bonding between polar inorganic nano particles and epoxy organic polymer. γ-Aminopropyltriethoxysilane (Amino A-100) was used as an effective and commercially available coupling agent and nano silica treated in acetone media. SEM observations of cured samples revealed that the nano silica was completely dispersed into polymer matrix into nanoscale particles. Thermal and physical properties of prepared samples were investigated and data showed improvements in physical and mechanical properties of the flooring samples in comparison with unfilled resin

Infrared spectroscopic and chemometric approach for identifying binding medium in Sukias mansion’s wall paintings

<p>This paper addresses the application of infrared spectroscopy in combination with chemometrics to identify wall painting’s binding medium while employing pattern recognition techniques to process FTIR data-set of complex samples. In this regard, based on the historical documents and previous researches, firstly 56 standard samples were prepared to represent strata of Persian wall paintings in the Safavid period in addition to real historic samples from the case study; Sukias mansion. Then, each sample was analysed by the means of FTIR and chemometrics. Finally, SIMCA was applied to the whole region of studied IR spectra which predicted egg yolk as the binding medium of Sukias mansion samples.</p