Your search keyword '"Lamhasni, Taibi"' showing total 5 results

1. A Statistical Physics Approach to Understanding the Adsorption of Methylene Blue onto Cobalt Oxide Nanoparticles.

Author

Dehbi A, Dehmani Y, Franco DSP, Omari H, Georgin J, Brahmi Y, Elazhari K, Messaoudi M, Aadnan I, Lamhasni T, Alrashdi AA, Abdallaoui A, Abouarnadasse S, and Lamini A

Abstract

The production of cobalt oxide nanoparticles and their use in the adsorption of methylene blue (MB) from solution is described in the paper. The X-ray diffraction patterns show that the synthesized cobalt oxide nanoparticles have a crystalline cubic structure. The study of the adsorption of methylene blue onto the cobalt oxide nanoparticles involved determining the contact time and initial concentration of the adsorption of MB on the adsorbent. The kinetics of adsorption were analyzed using two kinetic models (pseudo-first order and pseudo-second order), and the pseudo-second-order model was found to be the most appropriate for describing the behavior of the adsorption. This study indicates that the MLTS (monolayer with the same number of molecules per site) model is the most suitable model for describing methylene blue/cobalt oxide systems, and the parameter values help to further understand the adsorption process with the steric parameters. Indicating that methylene blue is horizontally adsorbed onto the surface of the cobalt oxide, which is bonded to two different receptor sites. Regarding the temperature effect, it was found that the adsorption capacity increased, with the experimental value ranging from 313.7 to 405.3 mg g -1 , while the MLTS predicted 313.32 and 408.16 mg g -1 . From the thermodynamic functions, high entropy was found around 280 mg L -1 concentration. For all concentrations and temperatures examined, the Gibbs free energy and enthalpy of adsorption were found to be negative and positive, respectively, suggesting that the system is spontaneous and endothermic. According to this study's findings, methylene blue adsorption onto cobalt oxide nanoparticles happens via the creation of a monolayer, in which the same amount of molecules are adsorbed at two distinct locations. The findings shed light on the methylene blue adsorption process onto cobalt oxide nanoparticles, which have a variety of uses, including the remediation of wastewater.

Published

2024

2. Raman and ATR-FTIR analyses of medieval wall paintings from al-Qarawiyyin in Fez (Morocco).

Author

Fikri I, El Amraoui M, Haddad M, Ettahiri AS, Falguères C, Bellot-Gurlet L, Lamhasni T, Ait Lyazidi S, and Bejjit L

Abstract

A multi-analytical study has been undertaken to characterise wall paintings from the al-Qarawiyyin university in Fez, dating back to the 9th century and still in activity, with the aim of identifying the pigments used and going back to the painting techniques adopted by the Moroccan craftsmen of the time. The investigation crossed Raman and ATR-FTIR structural analyses along with XRF elemental ones, as well as colorimetric measurements. The colours and shades of six representative fragments collected during a recent excavation have been examined. Hence, red ochre (mainly hematite) was used to obtain brown-red colour, calcite for white, bistre for carbon-based black, while blue shades were achieved using azurite. Mixtures of pigments were created to widen the colour palette: cinnabar, minium and hematite were identified in orange hues while lapis lazuli and azurite were observed in grey-blue areas. The exploration of mortar layers revealed gypsum, gypsum/calcite and calcite type plasters. Furthermore, the observation of the morphological aspect of the interface between the plaster and the painting layer seems indicating that the lime-secco-painting skill had been the adopted painting technique., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

3. Parchments and coloring materials in two IXth century manuscripts: On-site non-invasive multi-techniques investigation.

Author

Oubelkacem Y, Lamhasni T, El Bakkali A, Lyazidi SA, Haddad M, and Ben-Ncer A

Abstract

One among the most famous ancient parchments in the Islamic world, dating back to the IXth century, along with another contemporary one have been investigated by means of a completely non-invasive multi-techniques analysis combining all of elemental XRF and structural/molecular Raman, ATR-FTIR and FOR spectroscopies besides pHs and colorimetric measurements. The materials initially used in the preparation of the writing supports were identified; in addition to calcite at different extents, the parchments seem to be condensed tannins-pretreated. Furthermore, the exploration of amide I and II vibrational bands and sub-bands illustrated collagen gelatinization and molecular helix disorders phenomena. Parchments and inks degradation products, gypsum and calcium oxalates, have been also identified. In both manuscripts the writing black inks have been characterized as iron gall type. The corrosive effect of these black inks appears deeply damaging the acidic parchment supports. In this case, the high frequency side of the infrared spectrum disappears completely, illustrating thus irreversible parchment degradations. Gum Arabic, when added sufficiently in the black ink recipe, seems preventing the corrosive damaging effect induced by Fe 2+ ions spreading from the black ink into the parchment body. Besides, all coloring materials have been identified; gold in gilded scriptures and natural pigments for vocalizations and basic decorations: cinnabar for reds, lapis-lazuli for blue and orpiment/realgar/pararealgar arsenic sulfides for yellow/orange shades. The anthraquinone-based kermesic acid extracted from Kermes female insects had been used for dark pink decorations, while the copper-based pigment verdigris had been synthetized to achieve green motifs. These results enrich the knowledge of ancient writing supports and materials, and highlight technologies and practices developed by middle-ages craftsmen., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

4. Air pollution impact on architectural heritage of Morocco: Combination of synchronous fluorescence and ATR-FTIR spectroscopies for the analyses of black crusts deposits.

Author

Lamhasni T, El-Marjaoui H, El Bakkali A, Lyazidi SA, Haddad M, Ben-Ncer A, Benyaich F, Bonazza A, and Tahri M

Subjects

Calcium Carbonate analysis, Cities, Construction Materials, Morocco, Soot, Spectroscopy, Fourier Transform Infrared, Weather, Air Pollutants analysis, Air Pollution analysis, Architecture, Calcium Carbonate metabolism, Calcium Sulfate analysis, Environmental Monitoring methods

Abstract

The work is focusing on air pollution impacts on historical limestone buildings located in urban areas in Morocco. Black crusts sampled on the façades of two ancient limestone monuments, dating back to the 12th and 20th centuries edified in the cities of Salé and Casablanca, have been analyzed by means of ATR-FTIR and synchronous fluorescence spectroscopies. Infrared analyses revealed degradation products, mainly gypsum due to calcite sulphation under wetness and SO 2 rich oil fired soot, and oxalates due to ancient biological weathering. Synchronous fluorescence permitted the identification of the most hazardous PAHs along with other non-identified fluorescent organics; this technique appeared efficient and suitable for the analysis of fluorescent pollutants entrapped in black crusts. Such results keeping track of air pollution causing disfigurement of architectural heritage must alarm both cultural heritage and environmental decision makers., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

5. Total Fluorescence Fingerprinting of Pesticides: A Reliable Approach for Continuous Monitoring of Soils and Waters.

Author

Hassoun H, Lamhasni T, Foudeil S, El Bakkali A, Ait Lyazidi S, Haddad M, Choukrad M, and Hnach M

Subjects

Agriculture, Morocco, Environmental Monitoring methods, Fluorescence, Pesticides analysis, Soil Pollutants analysis, Spectrometry, Fluorescence methods, Water Pollutants, Chemical analysis

Abstract

The present work relates to the creation/extension of a database of Total Excitation-Emission and Total Synchronous Fluorescence Matrices (TEEMs and TSFMs) along with optimal Synchronous Fluorescence Spectra (SFS) to fingerprint pesticides widely used in Morocco. This spectrometric multi-component fingerprinting may permit the direct detection of pesticides persisting in soil or water. The objective of the current investigation is to detect four pesticide remains in agricultural soils by applying the spectrometric fingerprinting results. They are the commercial: i) insecticide Axlera 5G (carbamate), ii) fungicide Orsalis 5% SC (triazole), iii) insecticide Force 0,5 G (pyrethrinoid) and iv) insecticide Proclaim 05 SG (non-assigned). The agricultural plantations monitored are located in the great agricultural Doukkala region at the western Atlantic side of Morocco, where these chemicals are in large sale and use.

Published

2017