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Publikationer av Abdusalam Uheida

Refereegranskade

Artiklar

[1]
V. Piazza et al., "Ecosafety Screening of Photo-Fenton Process for the Degradation of Microplastics in Water," Frontiers in Marine Science, vol. 8, 2022.
[2]
H. F. Giraldo Mejia et al., "Antibacterial performance of hybrid nanocomposite coatings containing clay and silver nanoparticles," Colloids and Surfaces A : Physicochemical and Engineering Aspects, vol. 628, 2021.
[3]
Z. Zohdijamil et al., "Functionalized graphene oxide tablets for sample preparation of drugs in biological fluids : Extraction of ritonavir, a HIV protease inhibitor, from human saliva and plasma using LC–MS/MS," BMC Biomedical chromotography, vol. 35, no. 12, 2021.
[4]
A. Uheida et al., "Visible light photocatalytic degradation of polypropylene microplastics in a continuous water flow system," Journal of Hazardous Materials, vol. 406, 2021.
[5]
M. Goerlin et al., "Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations," Nature Communications, vol. 11, no. 1, 2020.
[6]
A. Sallam et al., "CT Scanning and MATLAB Calculations for Preservation of Coptic Mural Paintings in Historic Egyptian Monasteries," Scientific Reports, vol. 9, 2019.
[7]
Z. Zohdi et al., "Graphene Oxide Tablets for Sample Preparation of Drugs in Biological Fluids : Determination of Omeprazole in Human Saliva for Liquid Chromatography Tandem Mass Spectrometry," Molecules, vol. 24, no. 7, 2019.
[8]
L. Yohai et al., "Nanocomposite functionalized membranes based on silica nanoparticles oss-linked to electrospun nanofibrous support for arsenic(v) sorption from contaminated underground water," RSC Advances, vol. 9, no. 15, s. 8280-8289, 2019.
[9]
A. Uheida et al., "Photocatalytic degradation of Ibuprofen, Naproxen, and Cetirizine using PAN-MWCNT nanofibers crosslinked TiO2-NH2 nanoparticles under visible light irradiation," Separation and Purification Technology, vol. 212, s. 110-118, 2019.
[10]
H. Karimiyan et al., "Polyacrylonitrile / graphene oxide nanofibers for packed sorbent microextraction of drugs and their metabolites from human plasma samples," Talanta : The International Journal of Pure and Applied Analytical Chemistry, vol. 201, s. 474-479, 2019.
[11]
A. Khalil et al., "Surface modified of polyacrylonitrile nanofibers by TiO2/MWCNT for photodegradation of organic dyes and pharmaceutical drugs under visible light irradiation," Environmental Research, vol. 179, 2019.
[12]
A. Mohamed et al., "Photodegradation of Ibuprofen, Cetirizine, and Naproxen by PAN-MWCNT/TiO2-NH2 nanofiber membrane under UV light irradiation," Environmental Sciences Europe, vol. 30, 2018.
[13]
M. G. Yazdi et al., "Surface modified composite nanofibers for the removal of indigo carmine dye from polluted water," RSC Advances, vol. 8, no. 43, s. 24588-24598, 2018.
[14]
F. Aziz et al., "Composite nanofibers of polyacrylonitrile/natural clay for decontamination of water containing Pb(II), Cu(II), Zn(II) and pesticides," Separation science and technology (Print), vol. 52, no. 1, s. 58-70, 2017.
[15]
A. Mohamed et al., "Photocatalytic degradation of organic dyes and enhanced mechanical properties of PAN/CNTs composite nanofibers," Separation and Purification Technology, vol. 182, s. 219-223, 2017.
[16]
R. M. Ashour et al., "Rare Earth Ions Adsorption onto Graphene Oxide Nanosheets," Solvent extraction and ion exchange, vol. 35, no. 2, s. 91-103, 2017.
[17]
A. Mohamed et al., "Removal of chromium (VI) from aqueous solutions using surface modified composite nanofibers," Journal of Colloid and Interface Science, vol. 505, s. 682-691, 2017.
[18]
R. M. Ashour et al., "Selective separation of rare earth ions from aqueous solution using functionalized magnetite nanoparticles : kinetic and thermodynamic studies," Chemical Engineering Journal, vol. 327, s. 286-296, 2017.
[19]
A. Mohamed et al., "Surface functionalized composite nanofibers for efficient removal of arsenic from aqueous solutions," Chemosphere, vol. 180, s. 108-116, 2017.
[20]
A. Mohamed et al., "Composite nanofibers for highly efficient photocatalytic degradation of organic dyes from contaminated water," Environmental Research, vol. 145, s. 18-25, 2016.
[21]
A. Sallam et al., "Studies On The Deterioration Of Coptic Mural Paintings In The Monastery Of Martyrs And The Luxor Temple," International Journal of Conservation Science, vol. 7, no. 2, s. 493-500, 2016.
[22]
A. Mohamed et al., "Visible light photocatalytic reduction of Cr(VI) by surface modified CNT/titanium dioxide composites nanofibers," Journal of Molecular Catalysis A : Chemical, vol. 424, s. 45-53, 2016.
[23]
D. Morillo et al., "Arsenate removal with 3-mercaptopropanoic acid-coated superparamagnetic iron oxide nanoparticles," Journal of Colloid and Interface Science, vol. 438, s. 227-234, 2015.
[24]
K. Abderrazek et al., "Photocatalytic degradation of indigo carmine using [Zn-Al] LDH supported on PAN nanofibres," Clay minerals, vol. 50, no. 2, s. 185-197, 2015.
[25]
T. Burks et al., "Studies on the adsorption of chromium(VI) onto 3-Mercaptopropionic acid coated superparamagnetic iron oxide nanoparticles," Journal of Colloid and Interface Science, vol. 425, s. 36-43, 2014.
[26]
M. Avila et al., "Surface functionalized nanofibers for the removal of chromium(VI) from aqueous solutions," Chemical Engineering Journal, vol. 245, s. 201-209, 2014.
[27]
A. R. Murray et al., "Oxidative Stress and Dermal Toxicity of Iron Oxide Nanoparticles In Vitro," Cell Biochemistry and Biophysics, vol. 67, no. 2, s. 461-476, 2013.
[28]
T. Burks et al., "Removal of Chromium(VI) Using Surface Modified Superparamagnetic Iron Oxide Nanoparticles," Separation science and technology (Print), vol. 48, no. 8, s. 1243-1251, 2013.
[29]
J. Shi et al., "Microsomal Glutathione Transferase 1 Protects Against Toxicity Induced by Silica Nanoparticles but Not by Zinc Oxide Nanoparticles," ACS Nano, vol. 6, no. 3, s. 1925-1938, 2012.
[30]
A. Sugunan et al., "Radially Oriented ZnO Nanowires on Flexible Poly-L-Lactide Nanofibers for Continuous-Flow Photocatalytic Water Purification," Journal of The American Ceramic Society, vol. 93, no. 11, s. 3740-3744, 2010.
[31]
A. Uheida et al., "Adsorption Behavior of Platinum Group Metals (Pd, Pt, Rh) onNonylthiourea-Coated Fe3O4 Nanoparticles," Separation science and technology (Print), vol. 41, s. 909-923, 2006.
[32]
A. Uheida et al., "Fe3O4 and gamma-Fe2O3 nanoparticles for the adsorption of Co2+ from aqueous solution," Journal of Colloid and Interface Science, vol. 298, no. 2, s. 501-507, 2006.
[33]
A. Uheida et al., "Sorption of palladium(II), rhodium(III), and platinum(IV) on Fe3O4 nanoparticles," Journal of Colloid and Interface Science, vol. 301, no. 2, s. 402-408, 2006.
[34]
M. Hidalgo et al., "Study of the sorption and separation abilities of commercial solid-phase extraction (SPE) cartridge Oasis MAX towards Au(III), Pd(II), Pt(IV), and Rh(III)," Solvent extraction and ion exchange, vol. 24, no. 6, s. 931-942, 2006.
[35]
A. Uheida, Y. Zhang och M. Muhammed, "Thermodynamic modeling of extraction equilibria of platinum and palladium with nonylthiourea from hydrochloric acid media," Separation science and technology (Print), vol. 39, no. 15, s. 3665-3677, 2004.
[36]
A. Uheida, Y. Zhang och M. Muhammed, "Transport of palladium(II) through hollow fiber supported liquid membrane facilitated by nonylthiourea," Journal of Membrane Science, vol. 241, no. 2, s. 289-295, 2004.
[37]
A. Uheida, Y. Zhang och M. Muhammed, "Extraction of platinum(IV) with nonylthiourea dissolved in chloroform from hydrochloric acid media," Solvent extraction and ion exchange, vol. 21, no. 6, s. 827-840, 2003.
[38]
A. Uheida, Y. Zhang och M. Muhammed, "Selective extraction of palladium(II) from chloride solutions with nonylthiourea dissolved in chloroform," Solvent extraction and ion exchange, vol. 20, no. 6, s. 717-733, 2002.
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2024-11-17 00:14:01