F. Al-Taher scite author profile

F. Al-Taher

5Publications

15Citation Statements Received

37Citation Statements Given

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Affiliations

Sirte University, Hungarian Academy of Sciences, HUN-REN Research Centre for Natural Sciences

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Coatings against corrosion and microbial adhesion

Telegdi

Szabó

Al-Taher

et al. 2010

Materials & Corrosion

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A systematic study on anti-corrosion and anti-fouling effect of hydrophobic Langmuir-Blodgett and self-assembled molecular layers deposited on metal surfaces, as well as anti-microbial adhesion properties of coatings with biocide is presented. Both types of efficiencies produced by LB films are enhanced by Fe 3þ ions built in the molecular film. The quaternary ammonium type biocide embedded into the cross-linked gelatin decreased significantly the microbial adhesion, the biofilm formation.

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Langmuir films of monohydroxamic acid on various ion-containing subphases

Al-Taher

Telegdi

Kálmán

2008

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Effect of Divalent Cations in Langmuir-Blodgett Films on the Protection of Copper against Corrosion

Al-Taher

Telegdi

Kálmán

2007

MSF

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Langmuir-Blodgett films (LB) of hydroxamic amphiphiles were used as coating barriers on metal surface against corrosion. Two long-chain hydroxamic acids [CH3(CH2)16CONHOH] monolayers in the presence of some divalent cations (Ca2+, Mg2+, and Cu2+) have been studied at different pH of the subphase. The monolayer was characterized by surface pressure-area isotherms and visualized by Brewster angle microscope (BAM). Compact Langmuir layers were deposited on copper surface, where the modified surfaces were characterized by contact angle measurement as well as by electrochemical techniques. The morphology of LB coated copper surface was visualized by atomic force microscopy (AFM). The coated copper surfaces were tested in corrosive media at acidic and neutral pH. The results show that the multi-molecular LB films of hydroxamic acid salts form good barriers against copper corrosion. The comparison of these results with copper coated by LB layers without divalent cations shows that the presence of divalent cations in the subphase increases the copper corrosion inhibition. The octadecanoyl hydroxamic acid (C18N) results in better and more stable monolayer with cations in the subphase.

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An Analysis Study of the impact of the main operating parameters on the ozone mass transfer rate in a Kenics Static Mixer Using the Steady State Back Flow Cell Model (BFCM)

Saad

Elamari

Alshebani

et al. 2019

JAU

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The kenics static mixer (KMS) has been profoundly used in water and wastewater treatment processes, essentially in water ozonation for oxidation and disinfection purposes. since higher concentration of ozone is required, new contactors which operate efficiently at low gas/liquid ratio has been developed. The Kenics static mixer can fulfil these demands which lead to increase in the ozone mass transfer rate [1]. The main purpose of this paper is to use the steady state back flow cell model (BFCM) developed by Tizaoui and Zhang [1] so as to estimate the concentration profile of ozone in the liquid and the gas phases along the KMS. The study also aim to develop a Matlab code for the BFCM of the static mixer. Moreover, this research studied the effect of the main operating parameters: volumetric liquid mass transfer coefficient ,the length of the Kenics static mixer, flow rate of water , and gas flow rate , back flow ratio and the temperature on ozone concentration profile in the gas and liquid phases and respectively along the height of the Kenics static mixer.

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LB Films of Octadecanoyl Hydroxamic Acid as Barrier against Copper Corrosion

Al-Taher¹,

Shaglouf²

2021

JMSET

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Free of ions of Octadecanoyl monohydroxamic acid (C18N) and in the presence of Fe3+ ion multilayers were deposited on the copper surface as Langmuir-Blodgett (LB) films. Their inhibiting effect on copper corrosion was investigated in 0.1 M sodium sulfate solution by different techniques such as potentiodynamic polarization and by electrochemical impedance spectroscopy (EIS). As well as that, the copper surfaces were visualized using a Scanning electron microscope (SEM). The results showed that the highest inhibition efficiency (92%) was achieved by LB film of 5 monomolecular layers of C18N/Fe3+. The LB films work as a cathodic inhibitor which inhibits the cathodic reaction. The presence of Fe3+ ions significantly improves the inhibition efficiency through the formation of a more compact dense layer of C18N/Fe3+ complex that blocks the flux of aggressive ions to the metal surface. The effect of immersion time on the inhibiting characteristics of LB films on the copper surfaces was studied.

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F. Al-Taher

Coatings against corrosion and microbial adhesion

Langmuir films of monohydroxamic acid on various ion-containing subphases

Effect of Divalent Cations in Langmuir-Blodgett Films on the Protection of Copper against Corrosion

An Analysis Study of the impact of the main operating parameters on the ozone mass transfer rate in a Kenics Static Mixer Using the Steady State Back Flow Cell Model (BFCM)

LB Films of Octadecanoyl Hydroxamic Acid as Barrier against Copper Corrosion

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