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Abdallah I.M. Rabee
Researcher at Minia University
Publications - 15
Citations - 193
Abdallah I.M. Rabee is an academic researcher from Minia University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 7, co-authored 10 publications receiving 115 citations. Previous affiliations of Abdallah I.M. Rabee include Japan Advanced Institute of Science and Technology & Aston University.
Papers
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Journal ArticleDOI
Acidity-reactivity relationships in catalytic esterification over ammonium sulfate-derived sulfated zirconia
Abdallah I.M. Rabee,Gamal A.H. Mekhemer,Amin Osatiashtiani,Mark A. Isaacs,Adam F. Lee,Karen Wilson,Mohamed I. Zaki +6 more
TL;DR: In this paper, the acidity-reactivity relationship of sulfated zirconia catalysts prepared via (NH4)2SO4 impregnation of Zr(OH)4 for propanoic acid esterification with methanol was investigated.
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Surface chemical and photocatalytic consequences of Ca-doping of BiFeO3 as probed by XPS and H2O2 decomposition studies
TL;DR: In this paper, the effect of Ca-doping on surface chemical modifications and its impact on the heterogeneous photo-/thermo-catalytic activity of BiFeO3 towards H2O2 decomposition was investigated by means of X-ray photoelectron spectroscopy (XPS) and H 2O 2 decomposition gravimetry.
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Aerobic Oxidation of 5-Hydroxymethylfurfural into 2,5-Furandicarboxylic Acid over Gold Stabilized on Zirconia-Based Supports
TL;DR: A series of gold supported on monoclinic (m-), tetragonal (t-) ZrO2 and Mg-modified zirconia were prepared and used for the catalytic oxidation of the biomass-derived 5-hydroxymethylfurfural (HMF) as discussed by the authors.
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Sulfated Zirconia Catalysts for D-Sorbitol Cascade Cyclodehydration to Isosorbide: Impact of Zirconia Phase
TL;DR: Isosorbide is a widely touted intermediate for the production of biorenewable polymers and plastics, accessible through the aqueous phase cascade conversion of D-sorbitol to isosorbides via 1,4-sorb...
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MgO-ZrO2 Mixed Oxides as Effective and Reusable Base Catalysts for Glucose Isomerization into Fructose in Aqueous Media.
TL;DR: The kinetic studies revealed that the Lewis basic sites (cus-O2-) generated from the highly dispersed MgO are the active sites responsible for the enhanced isomerization activity.