ali moussadik

@um5.ac.ma

Department of Chemistry, Faculty of Sciences Rabat
Mohammed V University in Rabat

ali moussadik


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https://researchid.co/moussadik

RESEARCH, TEACHING, or OTHER INTERESTS

Chemistry, Materials Science, Physical and Theoretical Chemistry, Environmental Chemistry
18

Scopus Publications

331

Scholar Citations

11

Scholar h-index

13

Scholar i10-index

Scopus Publications

  • Eco-friendly fabrication and multifunctional evaluation of silver-doped muscovite-g-C3N4 nanocomposites for catalytic and antimicrobial applications
    Abduraboh Alraae, Rana Hussain, Ali Moussadik, Abdellah Benzaouak, Sanae Karim, Mohammed Kacimi, Abdelkbir Bellaouchou, Fatiha Bentata, Mohammed Dahhou, Aicha Sifou, Adnane El Hamidi
    Colloids and Surfaces A Physicochemical and Engineering Aspects, 2026
  • Advanced kinetic and thermodynamic analysis of sewage sludge combustion: A study of non-isothermal reaction mechanisms and energy recovery
    M. Ben Ali, M. El Hazzat, M. Flayou, A. Moussadik, S. Belekbir, A. Sifou, M. Dahhou, M. Kacimi, A. Benzaouak, A. El Hamidi
    Firephyschem, 2025
    • Thermochemical methods reduce sewage sludge (SS) volume while recovering energy. • Study identifies six SS combustion stages via deconvolution analysis. • Isoconversional methods used to determine activation energy accurately. • Master plot method highlights Fn reaction mechanism ( n < 1) predominance. • Thermodynamic assessments crucial for optimizing SS management processes. The management of sewage sludge (SS) is a significant global environmental challenge. Thermochemical conversion methods like incineration, pyrolysis, and gasification offer a way to reduce SS volumes and recover energy, yet their complexity requires a deep understanding of SS reactivity and conversion product properties for effective use and scale-up. This study investigates the non-isothermal combustion kinetics of SS, identifying six reaction stages through deconvolution analysis. Kinetic parameters were estimated using the isoconversional method for each pseudo-component, specifically the Kissinger-Akahira-Sunose (KAS) and Ozawa-Flynn-Wall (OFW) methods were utilized to determine activation energies, while the master plot method identified n th order kinetics ( Fn ) with n < 1 as the dominant reaction mechanism. The found activation energies were ranging from 71.57 kJ/mol to 267.91 kJ, and the pre-exponential factors from 2.35 × 10 3 min⁻¹ to 2.35 × 10 17 min⁻ 1 . Further thermodynamic assessments provided insights into enthalpy ( Δ H = 65.62 to 261.69 kJ/mol), entropy ( Δ S = -192.31 J/(mol·K) to 71.68 J/(mol·K)) and Gibbs free energy ( Δ G = 149.19 kJ/mol to 208.00 kJ/mol) for the pseudo-components, contributing to a comprehensive kinetic and thermodynamic profile of SS combustion.
  • Silver nanoparticle-doped beidellite: Eco-friendly catalyst for efficient hazardous organic pollutants reduction
    Abduraboh Alraae, Ali Moussadik, Abdellah Benzaouak, Mohammed Kacimi, Mohammed Dahhou, Aicha Sifou, Adnane El Hamidi
    Polyhedron, 2025
  • Copper-decorated Biochar derived from sludge as eco-friendly nano-catalyst for efficient p-nitrophenol reduction
    Majda Ben Ali, Abdellah Benzaouak, Laura Valentino, Ali Moussadik, Mouatamid El Hazzat, Lokmane Abdelouahed, Adnane El Hamidi, Leonarda Francesca Liotta
    Catalysis Today, 2025
    In the present study, Biochar produced from municipal sludge was used as support for copper nanoparticles (Cu NPs) to develop an efficient catalyst for environmental remediation and resource recovery. The catalytic reduction of 4-nitrophenol (4-NP) to 4-aminophenol (4-AP) with NaBH 4 was chosen as a benchmark reaction to evaluate the performance of the catalyst. This reaction is significant as it converts a toxic pollutant into a valuable intermediate with applications in pharmaceuticals and fine chemicals. Biochar-supported copper catalysts (Cu/Biochar) were synthesized with different Cu loadings (1, 2.5, 5, 7 and 10 wt%). Among these, 5.5%Cu/Biochar showed good catalytic activity, achieving a 97% reduction of 4-NP to 4-AP in eight minutes, with an apparent rate constant (K app ) of 0.0045 s -1 , using only 4 mg of catalyst. The catalyst demonstrated excellent stability and reusability for five consecutive cycles. Comprehensive characterization of the 5.5%Cu/Biochar catalyst was performed using XRD, SEM-EDX, TEM, FTIR, TGA, and pH at the point of zero charge (pHₚzc). The results confirm that Biochar serves as an effective, low-cost, and sustainable support, enhancing the catalytic performance and stability of Cu NPs.
  • Cu nanoparticles-decorated beidellite: Synthesis, characterization, and catalytic reduction of wastewater pollutants
    Abduraboh Alraae, Ali Moussadik, A. Benzaouak, M. El Hazzat, M. Kacimi, M. Dahhou, A. Sifou, Adnane El Hamidi
    Colloids and Surfaces A Physicochemical and Engineering Aspects, 2025
    This study focused on immobilizing copper nanoparticles (CuNPs) with an average diameter of 9.98 nm onto natural beidellite (BD). Initially, the adsorption behaviour of beidellite for copper ions (Cu²⁺) was investigated, showing optimal adsorption at pH = 5.20 ± 0.12 and a capacity of 25.31 mg·g⁻¹ . Additionally, the cation exchange capacity was determined to be 89.80 meq/100 g. The synthesis of the (CuNPs)/BD nanocomposite involved an adsorption step, followed by chemical reduction by sodium borohydride (NaBH₄) as the reducing agent. The resulting material was comprehensively characterized using various analytical techniques, including X-ray fluorescence (FX), X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy-dispersive X-ray spectroscopy (EDS), UV vis spectroscopy, and Fourier transform infrared spectroscopy (FTIR). The synthesized nanocomposites demonstrated exceptional catalytic performance, achieving reduction efficiencies of more than 98 % for various organic pollutants , including nitrophenols (within 12 min for 4-nitrophenol), cationic dyes (within 14 min for Rhodamine B), and anionic dyes (within 12 min for methyl orange), using sodium borohydride (NaBH₄) as the reducing agent at room temperature. The reduction followed first-order kinetics, with activity factors (k′) calculated as 144 s⁻¹ . g⁻¹ , 240 s⁻¹ . g⁻¹ , and 196 s⁻¹ . g⁻¹ for 4-NP, MO, and RhB, respectively. The catalysed reaction spectrum displayed a rapid decrease in absorbance, confirming the catalytic ability of the CuNPs. Conversely, the uncatalyzed reaction exhibited minimal absorbance changes, suggesting a notably sluggish reduction rate of organic pollutants . A noteworthy aspect was the reusability of the catalyst, which displayed consistent catalytic efficiency over multiple cycles without significant degradation.
  • Assessing the effects of reaction variables for enhanced chromium(III) adsorption efficiency using beidellite clay
    Abduraboh Alraae, Ali Moussadik, A. Benzaouak, M. Kacimi, M. Dahhou, A. Sifou, Adnane El Hamidi
    Results in Surfaces and Interfaces, 2025
    The mineralogical and chemical composition of beidellite was characterized using X-ray fluorescence (XRF), X-ray diffraction (XRD), thermogravimetric analysis (TGA/DTA), SEM-EDX analysis, and infrared spectroscopy (IR). The cation exchange capacity (CEC) and specific surface area (SSA) were determined to be 89.80 meq/100 g and 65 m 2 .g −1 , respectively, using the ammonium acetate method and Brunauer-Emmett-Teller (BET) analysis. The adsorption properties of beidellite for Cr 3+ removal from aqueous solutions were systematically investigated, focusing on the effects of contact time, pH, adsorbent mass, and initial Cr 3+ concentration. The results revealed that Cr 3+ adsorption was highly efficient at pH values above 4, achieving near-complete removal (>99 %) within 30 min. The adsorption efficiency was optimal at pH 4–6, where electrostatic interactions and surface complexation were maximized. Higher pH values led to the precipitation of chromium hydroxide, reducing adsorption efficiency. The adsorbent mass and initial Cr 3+ concentration also significantly influenced the process, with 0.1 g of beidellite achieving >99 % removal for Cr 3+ concentrations below 53.3 mg.L −1 . Experimental data were modeled using Langmuir, Freundlich, and Sips isotherms, with the Langmuir model providing the best fit (R 2 = 0.971), indicating homogeneous monolayer adsorption. The maximum adsorption capacity (Qm) was calculated to be 63.935 mg.g −1 . Kinetic studies revealed that the adsorption process followed pseudo-second-order kinetics (R 2 = 0.9986), suggesting chemisorption as the rate-limiting step. The study highlights the effectiveness of beidellite as a cost-efficient and environmentally friendly adsorbent for Cr 3+ removal, offering rapid kinetics, high adsorption capacity, and optimal performance across a broad pH range. These findings provide valuable insights for the application of beidellite in wastewater treatment, particularly in industries affected by chromium pollution. • The beidellite's high efficiency favors the removal of chromium anion from water and wastewater. • The economic and environmental benefits of beidellite clays indicate that they could be industrially exploitable. • The Pseudo-second-order model is suitable for describing the adsorption process of Cr 3+ onto beidellite. • Adsorption isotherm followed Langmuir model with maximum capacity of 63.94 mg g −1 .
  • One-step eco-friendly synthesis of Ag nanoparticles on bentonite-g-C₃N₄ for the reduction of hazardous organic pollutants in industrial wastewater.
    Abduraboh Alraae, Ali Moussadik, Abdellah Benzaouak, Mohammed Kacimi, Mohammed Dahhou, Aicha Sifou, Adnane El Hamidi
    Next Nanotechnology, 2025
    Silver nanoparticles (Ag NPs) supported on natural materials have garnered significant attention due to their wide applicability across various research fields. This study presents an eco-friendly, scalable, and one-step approach to synthesizing high-purity Ag NPs supported by bentonite-graphitic carbon nitride (Bt-g-C 3 N 4 ) nanocomposites via thermal reduction. The successful integration of Ag NPs into the Bt-g-C 3 N 4 matrix was confirmed through several characterization techniques, including X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), X-ray fluorescence (XRF), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and energy-dispersive spectroscopy (EDX). XRF analysis identified the clay as beidellite-rich (Si/Al molar ratio less than 2), while EDX spectra and XRD patterns confirmed the presence of Ag NPs, with characteristic peaks at 38.04 ° and 44.24 ° . SEM and TEM images showed uniform Ag NP distribution with an average particle size of 4.75 nm and a spherical morphology. Acid-activated bentonite preserved its layered structure and exhibited a significant surface area increase, reaching 113.77 m²/g after hydrochloric acid treatment, thereby enhancing its capacity for supporting nanoparticle-based catalysts. The synthesized nanocomposites demonstrated exceptional catalytic performance, achieving reduction efficiencies of approximately 99 % for various organic pollutants, including nitrophenols (within 7 min for 4-nitrophenol), cationic dyes (within 12 min for Rhodamine B), and anionic dyes (within 5 min for methyl orange), using sodium borohydride (NaBH 4 ) as the reducing agent. The reduction followed first-order kinetics, with activity factors (k′) calculated as 134 s −1 .g −1 , 260 s −1 .g −1 , and 92 s −1 .g −1 for 4-NP, MO, and RhB, respectively. Furthermore, the Ag NPs/Bt-g-C 3 N 4 nanocomposites exhibited remarkable recyclability, maintaining high catalytic efficiency across multiple cycles. • Rapid synthesis of silver nanoparticles (Ag NPs) supported on a bentonite surface to create a robust and efficient catalyst. • Ag NPs were easily prepared through a straightforward one-step thermal calcination process. • Environmentally friendly urea served as the reducing agent, emphasizing the sustainable nature of the synthesis method. • The catalyst demonstrated exceptional catalytic activity, pin the reduction of phenols and organic dyes. • The catalyst retained its efficiency over multiple reuse cycles, indicating its durability and reusability.
  • Eco-friendly synthesis and catalytic activity of Cu nanoparticles deposited on expanded muscovite to reduce organic pollutants
    Abduraboh Alraae, Ali Moussadik, Abdellah Benzaouak, Mohammed Kacimi, Mohammed Dahhou, Aicha Sifou, Adnane El Hamidi
    Results in Surfaces and Interfaces, 2024
    Supported metal nanoparticles on various substrates have demonstrated high activity efficiency, resistance to aggregation, and ease of recyclability. In this study, the expansion of natural muscovite was investigated through a process involving acidic treatment followed by heat treatment (calcination). Afterward, muscovite-supported copper nanoparticles Cu(NPs)/ MST was synthesized using a wet-chemical method and characterized by various techniques, such as Fourier transform infrared spectroscopy FT-IR, X-ray diffraction XRD, scanning electron microscopy SEM, energy dispersive spectroscopy EDX, and transmission electron microscopy TEM. Initially, the adsorption behavior of muscovite towards copper ions was examined, revealing optimal adsorption of copper ions at pH = 5.20 ± 0.12 with an adsorption capacity of 22.58 mg.mg -1 . The subsequent reduction process using sodium borohydride (NaBH 4 ) led to the formation of Cu nanoparticles with diameters ranging from 4 nm to 20 nm according to the TEM analysis. These nanoparticles exhibited high catalytic activity in the reduction of organic pollutants in less than 10 min with high reaction rate constants. The findings of this study underscore the potential of muscovite as a promising substrate for catalytic support. Further research is recommended to explore the expansion of muscovite through straightforward thermochemical treatments and its capability to host a wide range of catalyst species. • Copper nanoparticles synthesized onto expanded muscovite. • Catalyst effective for organic pollutants reduction. • The catalyst's ability to endure multiple reuse cycles without a significant loss of efficiency .
  • High-performance ferroelectric photocatalysts for rapid dye degradation: ZrO2-doped LiTa0.5Nb0.5O3 under solar UV light
    Nour-eddine Lazar, Driss Mazkad, Ali Moussadik, Mohamed El Habib Hitar, Abdellah Benzaouak, Noureddine Touach, Jimmy Nicolle, Benoît Cagnon, Fatma Yalcinkaya, Yassine Riadi, Manal A. Alossaimi, Mohammed El Mahi, El Mostapha Lotfi
    Journal of Sol Gel Science and Technology, 2024
  • Magnetically separable new Fe3O4@AgZr2(PO4)3 nanocomposite catalyst for the synthesis of novel isoxazole/isoxazoline-linked 1,2,3-triazoles in water under ultrasound cavitation
    Loubna Mokhi, Ali Moussadik, Mohsine Driowya, Ayoub El Mahmoudi, Hamza Tachallait, Rachid Benhida, Adnane El Hamidi, Khalid Bougrin
    Journal of Molecular Liquids, 2024
  • Self-grown Ag2O nanoparticles on Ag-NASICON material for efficient visible light photocatalysis
    Ali Moussadik, Driss Mazkad, Nour-eddine Lazar, Abdellah Benzaouak, Younes Abrouki, et al.
    Optical Materials, 2024
  • Photocatalytic properties insight of Sm-doped LiNbO3 in ferroelectric Li1− xNbSm1/3xO3 system
    Driss Mazkad, Nour-eddine Lazar, Abdellah Benzaouak, Ali Moussadik, Mohamed El Habib Hitar, Noureddine Touach, Mohammed El Mahi, El Mostapha Lotfi
    Journal of Environmental Chemical Engineering, 2023
  • Investigation of electronic and photocatalytic properties of AgTi2(PO4)3 NASICON-type phosphate: Combining experimental data and DFT calculations
    Ali Moussadik, Nour-eddine Lazar, Driss Mazkad, Flavio Siro Brigiano, Kitty Baert, Tom Hauffman, Abdellah Benzaouak, Younes Abrouki, Mohamed Kacimi, Frederik Tielens, Mohammed Halim, Adnane El Hamidi
    Journal of Photochemistry and Photobiology A Chemistry, 2023
  • Optimization of Performance the Waste in Treatment of Textile Wastewater Using Response Surface Methodology
    Abdelkader Anouzla, Amina Khalidi Idrissi, Oussam Hartal, Malika Kastali, Hayat Loukili, Khalid Digua, Salah Souabi, Bachar Redouane, Ali Moussadik, Mohamed Elouardi, Karima Azoulay, Imane Bencheikh, Mohamed Benchrifa, Younes Abrouki, Jamal Mabrouki, Adnane El Hamidi, Mohammed Dahhou, Hicham Harhar, Ghizlane Fattah, Mohammed Salah
    Environmental Science and Engineering, 2023
  • Crystalline structures of l-cysteine and l-cystine: a combined theoretical and experimental characterization
    Yangyang Su, Etienne P. Hessou, Estefania Colombo, Gustavo Belletti, Ali Moussadik, Ivan T. Lucas, Vincent Frochot, Michel Daudon, Stéphan Rouzière, Dominique Bazin, Kezhi Li, Paola Quaino, Frederik Tielens
    Amino Acids, 2022
  • In situ synthesis of selfsupported Ag NPs on AgZr2(PO4)3 NASICON type phosphate: Application in catalytic reduction of 4-nitrophenol
    Ali Moussadik, Mohammed Halim, Said Arsalane, Frederik Tielens, Mohamed Kacimi, Adnane El Hamidi
    Materials Research Bulletin, 2022
  • Multi-response optimization of coagulation–flocculation process for stabilized landfill leachate treatment using a coagulant based on an industrial effluent
    Abdelkader Anouzla, Malika Kastali, Karima Azoulay, Imane Bencheikh, Ghizlane Fattah, Jamal Mabrouki, Chirâa Elidrissi Elhassani, Boubker Ouadil, Khadija El Moustaqim, Chaymae Bakkouche, Ali Moussadik, Latifa Mouhir, Khalid Digua, Salah Souabi, Redouane Khaoulaf, Souad El Hajjaji, Hayat Loukili, Nabil Saffaj, Mourade Azrour, Younes Abrouki
    Desalination and Water Treatment, 2022
  • Self-supported Ag nanoparticles on AgTi2(PO4)3 for hazardous dyes reduction in industrial wastewater
    Ali Moussadik, Flavio Siro Brigiano, Frederik Tielens, Mohammed Halim, Mohamed Kacimi, Adnane El Hamidi
    Journal of Environmental Chemical Engineering, 2022

RECENT SCHOLAR PUBLICATIONS

  • Copper-decorated Biochar derived from sludge as eco-friendly nano-catalyst for efficient p-nitrophenol reduction
    MB Ali, A Benzaouak, L Valentino, A Moussadik, M El Hazzat, ...
    Catalysis Today 459, 115421 , 2025
    2025.0
    Citations: 14
  • Eco-friendly fabrication and multifunctional evaluation of silver-doped Muscovite-g-C3N4 nanocomposites for catalytic and antimicrobial applications.
    A Alraae, R Hussain, A Moussadik, A Benzaouak, S Karim, M Kacimi, ...
    Colloids and Surfaces A: Physicochemical and Engineering Aspects, 138675 , 2025
    2025.0
    Citations: 2
  • Silver nanoparticle-decorated beidellite: Eco-friendly catalyst for efficient hazardous organic pollutants reduction
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Polyhedron, 117746 , 2025
    2025.0
    Citations: 6
  • Cu nanoparticles-decorated beidellite: Synthesis, characterization, and catalytic reduction of wastewater pollutants
    A Alraae, A Moussadik, A Benzaouak, M El Hazzat, M Kacimi, M Dahhou, ...
    Colloids and Surfaces A: Physicochemical and Engineering Aspects 718, 136885 , 2025
    2025.0
    Citations: 11
  • Assessing the effects of reaction variables for enhanced chromium (III) adsorption efficiency using beidellite clay
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Results in Surfaces and Interfaces 19, 100523 , 2025
    2025.0
    Citations: 5
  • Advanced kinetic and thermodynamic analysis of sewage sludge combustion: A study of non-isothermal reaction mechanisms and energy recovery
    MB Ali, M El Hazzat, M Flayou, A Moussadik, S Belekbir, A Sifou, ...
    FirePhysChem , 2025
    2025.0
    Citations: 5
  • One-step eco-friendly synthesis of Ag nanoparticles on bentonite-g-C₃N₄ for the reduction of hazardous organic pollutants in industrial wastewater.
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Next Nanotechnology 7, 100116 , 2025
    2025.0
    Citations: 19
  • Eco-friendly synthesis and catalytic activity of Cu nanoparticles deposited on expanded muscovite to reduce organic pollutants
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Results in Surfaces and Interfaces 17, 100343 , 2024
    2024.0
    Citations: 16
  • High-performance ferroelectric photocatalysts for rapid dye degradation: ZrO2-doped LiTa0. 5Nb0. 5O3 under solar UV light
    N Lazar, D Mazkad, A Moussadik, M El Habib Hitar, A Benzaouak, ...
    Journal of Sol-Gel Science and Technology 110 (1), 233-245 , 2024
    2024.0
    Citations: 11
  • Self-grown Ag2O nanoparticles on Ag-NASICON material for efficient visible light photocatalysis
    A Moussadik, D Mazkad, N Lazar, A Benzaouak, Y Abrouki, M Kacimi, ...
    Optical Materials 148, 114803 , 2024
    2024.0
    Citations: 16
  • Magnetically separable new Fe3O4@ AgZr2 (PO4) 3 nanocomposite catalyst for the synthesis of novel isoxazole/isoxazoline-linked 1, 2, 3-triazoles in water under ultrasound …
    L Mokhi, A Moussadik, M Driowya, A El Mahmoudi, H Tachallait, ...
    Journal of Molecular Liquids 395, 123763 , 2024
    2024.0
    Citations: 8
  • Photocatalytic properties insight of Sm-doped LiNbO3 in ferroelectric Li1− xNbSm1/3xO3 system
    D Mazkad, N Lazar, A Benzaouak, A Moussadik, MEH Hitar, N Touach, ...
    Journal of Environmental Chemical Engineering 11 (3), 109732 , 2023
    2023.0
    Citations: 26
  • Optimization of performance the waste in treatment of textile wastewater using response surface methodology
    A Anouzla, AK Idrissi, O Hartal, M Kastali, H Loukili, K Digua, S Souabi, ...
    Advanced technology for smart environment and energy, 139-149 , 2023
    2023.0
    Citations: 14
  • Investigation of electronic and photocatalytic properties of AgTi2 (PO4) 3 NASICON-type phosphate: Combining experimental data and DFT calculations
    A Moussadik, N Lazar, D Mazkad, FS Brigiano, K Baert, T Hauffman, ...
    Journal of Photochemistry and Photobiology A: Chemistry 435, 114289 , 2023
    2023.0
    Citations: 41
  • Nanotechnology and photocatalysis for the treatment of organic pollutants in wastewater
    A Moussadik
    2023.0
  • In situ synthesis of selfsupported Ag NPs on AgZr2 (PO4) 3 NASICON type phosphate: Application in catalytic reduction of 4-nitrophenol
    A Moussadik, M Halim, S Arsalane, F Tielens, M Kacimi, A El Hamidi
    Materials Research Bulletin 150, 111764 , 2022
    2022.0
    Citations: 19
  • Multi-response optimization of coagulation–flocculation process for stabilized landfill leachate treatment using a coagulant based on an industrial effluent
    A Anouzla, M Kastali, K Azoulay, I Bencheikh, G Fattah, J Mabrouki, ...
    Desalination and Water Treatment 254, 71-79 , 2022
    2022.0
    Citations: 17
  • Crystalline structures of l-cysteine and l-cystine: a combined theoretical and experimental characterization
    Y Su, E Hessou, E Colombo, G Belletti, A Moussadik, IT Lucas, V Frochot, ...
    Amino acids, 1123-1133 , 2022
    2022.0
    Citations: 68
  • Self-supported Ag nanoparticles on AgTi2 (PO4) 3 for hazardous dyes reduction in industrial wastewater
    A Moussadik, FS Brigiano, F Tielens, M Halim, M Kacimi, A El Hamidi
    Journal of Environmental Chemical Engineering 10 (1), 106939 , 2022
    2022.0
    Citations: 33
  • One-Step Green Synthesis of Sustainable Ag Nanoparticles on Bentonite-G-C3n4 for the Reduction of Organic Pollutants in Industrial Wastewater
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Available at SSRN 4927709 , 0

MOST CITED SCHOLAR PUBLICATIONS

  • Crystalline structures of l-cysteine and l-cystine: a combined theoretical and experimental characterization
    Y Su, E Hessou, E Colombo, G Belletti, A Moussadik, IT Lucas, V Frochot, ...
    Amino acids, 1123-1133 , 2022
    2022.0
    Citations: 68
  • Investigation of electronic and photocatalytic properties of AgTi2 (PO4) 3 NASICON-type phosphate: Combining experimental data and DFT calculations
    A Moussadik, N Lazar, D Mazkad, FS Brigiano, K Baert, T Hauffman, ...
    Journal of Photochemistry and Photobiology A: Chemistry 435, 114289 , 2023
    2023.0
    Citations: 41
  • Self-supported Ag nanoparticles on AgTi2 (PO4) 3 for hazardous dyes reduction in industrial wastewater
    A Moussadik, FS Brigiano, F Tielens, M Halim, M Kacimi, A El Hamidi
    Journal of Environmental Chemical Engineering 10 (1), 106939 , 2022
    2022.0
    Citations: 33
  • Photocatalytic properties insight of Sm-doped LiNbO3 in ferroelectric Li1− xNbSm1/3xO3 system
    D Mazkad, N Lazar, A Benzaouak, A Moussadik, MEH Hitar, N Touach, ...
    Journal of Environmental Chemical Engineering 11 (3), 109732 , 2023
    2023.0
    Citations: 26
  • One-step eco-friendly synthesis of Ag nanoparticles on bentonite-g-C₃N₄ for the reduction of hazardous organic pollutants in industrial wastewater.
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Next Nanotechnology 7, 100116 , 2025
    2025.0
    Citations: 19
  • In situ synthesis of selfsupported Ag NPs on AgZr2 (PO4) 3 NASICON type phosphate: Application in catalytic reduction of 4-nitrophenol
    A Moussadik, M Halim, S Arsalane, F Tielens, M Kacimi, A El Hamidi
    Materials Research Bulletin 150, 111764 , 2022
    2022.0
    Citations: 19
  • Multi-response optimization of coagulation–flocculation process for stabilized landfill leachate treatment using a coagulant based on an industrial effluent
    A Anouzla, M Kastali, K Azoulay, I Bencheikh, G Fattah, J Mabrouki, ...
    Desalination and Water Treatment 254, 71-79 , 2022
    2022.0
    Citations: 17
  • Eco-friendly synthesis and catalytic activity of Cu nanoparticles deposited on expanded muscovite to reduce organic pollutants
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Results in Surfaces and Interfaces 17, 100343 , 2024
    2024.0
    Citations: 16
  • Self-grown Ag2O nanoparticles on Ag-NASICON material for efficient visible light photocatalysis
    A Moussadik, D Mazkad, N Lazar, A Benzaouak, Y Abrouki, M Kacimi, ...
    Optical Materials 148, 114803 , 2024
    2024.0
    Citations: 16
  • Copper-decorated Biochar derived from sludge as eco-friendly nano-catalyst for efficient p-nitrophenol reduction
    MB Ali, A Benzaouak, L Valentino, A Moussadik, M El Hazzat, ...
    Catalysis Today 459, 115421 , 2025
    2025.0
    Citations: 14
  • Optimization of performance the waste in treatment of textile wastewater using response surface methodology
    A Anouzla, AK Idrissi, O Hartal, M Kastali, H Loukili, K Digua, S Souabi, ...
    Advanced technology for smart environment and energy, 139-149 , 2023
    2023.0
    Citations: 14
  • Cu nanoparticles-decorated beidellite: Synthesis, characterization, and catalytic reduction of wastewater pollutants
    A Alraae, A Moussadik, A Benzaouak, M El Hazzat, M Kacimi, M Dahhou, ...
    Colloids and Surfaces A: Physicochemical and Engineering Aspects 718, 136885 , 2025
    2025.0
    Citations: 11
  • High-performance ferroelectric photocatalysts for rapid dye degradation: ZrO2-doped LiTa0. 5Nb0. 5O3 under solar UV light
    N Lazar, D Mazkad, A Moussadik, M El Habib Hitar, A Benzaouak, ...
    Journal of Sol-Gel Science and Technology 110 (1), 233-245 , 2024
    2024.0
    Citations: 11
  • Magnetically separable new Fe3O4@ AgZr2 (PO4) 3 nanocomposite catalyst for the synthesis of novel isoxazole/isoxazoline-linked 1, 2, 3-triazoles in water under ultrasound …
    L Mokhi, A Moussadik, M Driowya, A El Mahmoudi, H Tachallait, ...
    Journal of Molecular Liquids 395, 123763 , 2024
    2024.0
    Citations: 8
  • Silver nanoparticle-decorated beidellite: Eco-friendly catalyst for efficient hazardous organic pollutants reduction
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Polyhedron, 117746 , 2025
    2025.0
    Citations: 6
  • Assessing the effects of reaction variables for enhanced chromium (III) adsorption efficiency using beidellite clay
    A Alraae, A Moussadik, A Benzaouak, M Kacimi, M Dahhou, A Sifou, ...
    Results in Surfaces and Interfaces 19, 100523 , 2025
    2025.0
    Citations: 5
  • Advanced kinetic and thermodynamic analysis of sewage sludge combustion: A study of non-isothermal reaction mechanisms and energy recovery
    MB Ali, M El Hazzat, M Flayou, A Moussadik, S Belekbir, A Sifou, ...
    FirePhysChem , 2025
    2025.0
    Citations: 5
  • Eco-friendly fabrication and multifunctional evaluation of silver-doped Muscovite-g-C3N4 nanocomposites for catalytic and antimicrobial applications.
    A Alraae, R Hussain, A Moussadik, A Benzaouak, S Karim, M Kacimi, ...
    Colloids and Surfaces A: Physicochemical and Engineering Aspects, 138675 , 2025
    2025.0
    Citations: 2
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    Available at SSRN 4927709 , 0