Your search keyword '"Vicente A. Solé"' showing total 2 results

1. Watching Kinetic Studies as Chemical Maps Using Open-Source Software

Author

Vicente A. Solé, Marine Cotte, Laurence de Viguerie, Giovanni Agostini, Tiphaine Fabris, and Debora Motta Meira

Subjects

Pixel, Chemistry, business.industry, Interface (computing), 010401 analytical chemistry, Hyperspectral imaging, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Arrhenius plot, 0104 chemical sciences, Analytical Chemistry, Software, Statistics, Preprocessor, Fourier transform infrared spectroscopy, 0210 nano-technology, business, Algorithm, Intensity (heat transfer)

Abstract

A nonproprietary software package, "PyMca", primarily developed for X-ray fluorescence analysis offers an easy-to-use interface for calculating maps, by integrating intensity (of X-ray fluorescence, as well as any spectral data) over Regions Of Interest (ROI), by performing per pixel operations or by applying multivariate analysis. Here we show that, while initially developed to analyze hyperspectral two-dimensional (spatial) maps, this tool can be beneficial as well to anyone interested in measuring spectral variations over one or two dimensions, these dimensions being time, temperature, and so on. Different possibilities offered by the software (preprocessing, simultaneous analysis of replicas, of different conditions, ROI calculation, multivariate analysis, determination of reaction rate constant and of Arrhenius plot) are illustrated with two examples. The first example is the Fourier transform infrared spectroscopy (FTIR) follow-up of the saponification of oil by lead compounds. The disappearance of reagent (oil) and formation of products (lead carboxylates and glycerol) can be easily followed and quantified. The second example is a combined extended X-ray absorption fine structure (EXAFS), diffuse reflectance infrared Fourier transform spectroscopy (DRIFT), and mass spectroscopy (MS) analysis of RhAl2O3 catalyst under NO reduction by CO in the presence of O2. It is possible to appreciate, in a single shot, Rh particles' structure and surface changes and gas release and adsorption in the reaction conditions.

Published

2016

2. Synchrotron-based X-ray spectromicroscopy used for the study of an atypical micrometric pigment in 16th century paintings

Author

M. Menu, Eleonore Welcomme, Jean Susini, Vicente A. Solé, P. Walter, Marine Cotte, and Murielle Salomé

Subjects

Microprobe, Analytical chemistry, Fluorescence spectrometry, chemistry.chemical_element, Synchrotron radiation, Microanalysis, Synchrotron, Analytical Chemistry, law.invention, Characterization (materials science), Antimony, chemistry, law, Stibnite

Abstract

Grunewald is a famous German painter of the 16th century, whose celebrity is associated with his unique skill in handling colors. This article presents the analysis of materials used to render a metallic aspect in the Isenhein Altarpiece and the Basel's Crucifixion. Such samples are challenging objects for microanalysis due to both chemical and physical complexity. Their study by synchrotron-based X-ray microscopy techniques was made possible thanks to recent developments carried out at the ID21 beam line (European Synchrotron Radiation Facility, ESRF). A submicron X-ray fluorescence probe revealed the main presence of lead, sulfur, antimony, and calcium. The fluorescence-line interferences (in particular K-lines of sulfur with M-lines of lead, and K-lines of calcium with L-lines of antimony) were resolved with the fitting program, PyMCA. 2D-mapping highlighted the presence of micrometer grains of sulfur and antimony into a lead matrix. XANES measurements were performed at both the sulfur K-edge and the antimony L-edge to refine information from an atomic to a molecular level. Beam stability was a key point in this study to selectively probe micrometer pigment grains, dispersed in the lead matrix. They confirm that the grains are made of stibnite (antimony sulfide), a very atypical pigment. Chemical mapping of sulfides is perfectly correlated with antimony mapping and provides a clear visualization of the stibnite pigments, in addition to their identification. Besides its artistic relevancy, this work aims at illustrating developments of synchrotron X-ray microprobe methods for the chemical characterization and observation of complex and micrometer-scale materials.

Published

2007