Wael A. Amer scite author profile

Considering the great impact of a material’s surface area on adsorption processes, hollow nanotube magnetic zinc oxide with a favorable surface area of 78.39 m2/g was fabricated with the assistance of microwave technology in the presence of poly vinyl alcohol (PVA) as a stabilizing agent followed by sonic precipitation of magnetite nano-particles. Scanning electron microscopy (SEM) and transmission electron microscopy (TEM) micrographs identified the nanotubes’ morphology in the synthesized material with an average aspect ratio of 3. X-ray diffraction (XRD) analysis verified the combination of magnetite material with the hexagonal wurtzite structure of ZnO in the prepared material. The immobilization of magnetite nanoparticles on to ZnO was confirmed using vibrating sample magnetometry (VSM). The sorption affinity of the synthesized magnetic ZnO nanotube for phenolic compounds from aqueous solutions was examined as a function of various processing factors. The degree of acidity of the phenolic solution has great influence on the phenol sorption process on to magnetic ZnO. The calculated value of ΔH0 designated the endothermic nature of the phenol uptake process on to the magnetic ZnO nanotubes. Mathematical modeling indicated a combination of physical and chemical adsorption mechanisms of phenolic compounds on to the fabricated magnetic ZnO nanotubes. The kinetic process correlated better with the second-order rate model compared to the first-order rate model. This result indicates the predominance of the chemical adsorption process of phenol on to magnetic ZnO nanotubes.

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Chitosan/polyaniline nanofibers coating on the quartz crystal microbalance electrode for gas sensing

Ayad

Salahuddin

Minisy

et al. 2014

Sensors and Actuators B: Chemical

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Advanced Nanoporous Material–Based QCM Devices: A New Horizon of Interfacial Mass Sensing Technology

Torad

Zhang

Amer

et al. 2019

Adv Materials Inter

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This review introduces an overview of recent advancements in the fabrication of QCM sensing devices for the interfacial mass sensing of targeted chemical vapors and ions through combination with nanoporous materials including mesoporous materials (e.g., silica, metal oxide and metal), carbon-based nanomaterials (e.g., graphene and carbon nanotube), metal-organic frameworks (MOFs), MOF-derived nanoporous carbons, Prussian blue and its analogues (PB and PBA), zeolites and related materials.

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Recent Progress in the Synthesis and Applications of Some Ferrocene Derivatives and Ferrocene-Based Polymers

Amer

Wang

Amin

et al. 2010

J Inorg Organomet Polym

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Hydrogen Storage in Metal-Organic Frameworks

Sun

Wang

Amer

et al. 2012

J Inorg Organomet Polym

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Recent research progress in the synthesis and properties of burning rate catalysts based on ferrocene-containing polymers and derivatives

Tong

Zhao

Wang

et al. 2014

Journal of Organometallic Chemistry

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Novel eco-friendly electrospun nanomagnetic zinc oxide hybridized PVA/alginate/chitosan nanofibers for enhanced phenol decontamination

Elkady

Salama

Amer

et al. 2020

Environ Sci Pollut Res

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Wael A. Amer

Recent progress on study of hybrid hydrogels for water treatment

Novel Magnetic Zinc Oxide Nanotubes for Phenol Adsorption: Mechanism Modeling

Chitosan/polyaniline nanofibers coating on the quartz crystal microbalance electrode for gas sensing

Advanced Nanoporous Material–Based QCM Devices: A New Horizon of Interfacial Mass Sensing Technology

Recent Progress in the Synthesis and Applications of Some Ferrocene Derivatives and Ferrocene-Based Polymers

Hydrogen Storage in Metal-Organic Frameworks

Recent research progress in the synthesis and properties of burning rate catalysts based on ferrocene-containing polymers and derivatives

Novel eco-friendly electrospun nanomagnetic zinc oxide hybridized PVA/alginate/chitosan nanofibers for enhanced phenol decontamination

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