Omar Lakbita scite author profile

International audienceThis study is devoted to the physicochemical and mineralogical characterizations of palygorskite from Marrakech High Atlas, Morocco. The raw clay and its Na?-saturated\ 2 lm fraction were characterized using chemical, structural, and thermal analytical techniques. Measurements of specific surface area and porous volume are reported. The clay fraction was found to be made up of 95 %of palygorskite and 5 % of sepiolite. An original feature of this palygorskite is its deficiency in zeolitic H2O. The half-cell structural formula of its dehydrated form was determined on the basis of 21 oxygens to be (Si7.92Al0.08)(Mg2.15Al1.4Fe0.4Ti0.05h1)(Ca0.03 Na0.08K0.04)O21, while the hydrated form could be formulated as (Si7.97Al0.03)(Mg2.17Al1.46Fe0.40Ti0.05)(Ca0.03Na0.07K0,03) O20.18(OH)1.94(OH2)3.8812.43H2O. These formulas showthat the (Al3??Fe3?)/Mg2? ratio is around 0.84, revealing a pronounced dioctahedral character. Further, inside its octahedral sheet, it was determined that the inner M1 sites are occupied by vacancies, whereas the M2 sites are shared between 90 % of trivalent cations (78 % for Al3? and 22 % for Fe3?), 7.5 % of Mg2+, and 2.5 % of Ti4+, all of them linked to 1.94 of structural hydroxyls. The two remaining Mg2+ by half-cell occupy edge M3 sites and are coordinated to 3.88 molecules of OH2. Channels of this palygorskite are deficient in zeolitic H2O since they contain only 2.43 H2O molecules.A correlation was found between these results and the observation of very intense and well-resolved FTIR bands arising from dioctahedral domains (mainly Al2OH, Fe2OH, and AlFeOH) along with very small responses from a trioctahedral domain (Mg3OH). Accordingly, a schematic representation of the composition of the octahedral sheet was proposed. The cation exchange capacity, specific surface area, and total pore volume were also assessed to be ca. 21.2 meq/100 g, 116 m2/g, and 0.458 cm3/g, respectively

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Sustainable coating material based on chitosan-clay composite and paraffin wax for slow-release DAP fertilizer

Assimi

Lakbita

Meziane

et al. 2020

International Journal of Biological Macromolecules

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A simple and fast spectroscopy-based technique for Covid-19 diagnosis

Kitane

LOUKMAN²,

Marchoudi³

et al. 2021

Sci Rep

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The coronavirus pandemic, which appeared in Wuhan, China, in December 2019, rapidly spread all over the world in only a few weeks. Faster testing techniques requiring less resources are key in managing the pandemic, either to enable larger scale testing or even just provide developing countries with limited resources, particularly in Africa, means to perform tests to manage the crisis. Here, we report an unprecedented, rapid, reagent-free and easy-to-use screening spectroscopic method for the detection of SARS-CoV-2 on RNA extracts. This method, validated on clinical samples collected from 280 patients with quantitative predictive scores on both positive and negative samples, is based on a multivariate analysis of FTIR spectra of RNA extracts. This technique, in agreement with RT-PCR, achieves 97.8% accuracy, 97% sensitivity and 98.3% specificity while reducing the testing time post RNA extraction from hours to minutes. Furthermore, this technique can be used in several laboratories with limited resources.

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Toward Net-Zero Emission Fertilizers Industry: Greenhouse Gas Emission Analyses and Decarbonization Solutions

et al. 2022

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The production of fertilizers has been evolving steadily in the last 300 years. It involves a high number of commodities and reagents that share a large portion of the costs and emissions of greenhouse gases (GHGs), particularly carbon dioxide (CO2). Phosphorus, nitrogen, and potassium fertilizers components represent more than 200 million tonnes of production annually. Given that most of the fertilizer production process is dependent on fossil fuels as fuel and feedstock, the amount of CO2 generated is at least 3 tonnes CO2 per tonne of fertilizer. The introduction, in the future, of less intensive carbon technological components and lower energy-consuming separation and catalytic technologies in the fertilizers industry has the potential to reduce CO2 emissions drastically. In this review, we thoroughly analyze the GHG emissions of the fertilizers industry over time and explore pathways to achieve viable and sustainable decarbonization solutions. In the review, we also aim to explore, whenever information is available, the factors (sources) and the ranges of GHG emissions in the different value chains of fertilizer plants. As a result, an overview of the literature on GHG emissions from synthetic fertilizers (N, P, K) industries will be given. More emphasis is on emissions that stem from the extraction of raw materials to final fertilizer products (energy source, efficiency, and fertilizer type) and transportation of intermediates within different sites of the plants (vehicle type, fuel type, and efficiency). A perspective analysis on possible recommendations for future net-zero carbon emissions and carbon capture technologies is also made.

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On the key role of the surface of palygorskite nanofibers in the stabilization of hexagonal metastable β-Ag2CO3 phase in palygorskite-based nanocomposites

Lakbita

Rhouta

Maury

et al. 2019

Applied Clay Science

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Omar Lakbita

Comprehensive physicochemical study of dioctahedral palygorskite-rich clay from Marrakech High Atlas (Morocco)

Sustainable coating material based on chitosan-clay composite and paraffin wax for slow-release DAP fertilizer

A simple and fast spectroscopy-based technique for Covid-19 diagnosis

Toward Net-Zero Emission Fertilizers Industry: Greenhouse Gas Emission Analyses and Decarbonization Solutions

On the key role of the surface of palygorskite nanofibers in the stabilization of hexagonal metastable β-Ag2CO3 phase in palygorskite-based nanocomposites

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