Our Publications
Our work spans diverse scientific fields, highlighting international collaborations and impactful studies. These publications demostrate our dedication to advancing knowledge through rigorous experimental and theoretical research in chemistry, materials science, and energy technologies.
Comprehensive Experimental and Theoretical Study on the Adsorption and Corrosion Inhibition Efficiency of Pyronin B for Mild Steel Protection in HCl Solution
Journal: The Journal of Physical Chemistry C (2024), 128 (51), 21809–21825
Short Abstract: Pyronin B was studied as a corrosion inhibitor on mild steel in 1 M HCl. Electrochemical tests and surface characterization showed chemical adsorption forming a stable protective film. Maximum inhibition efficiency reached ~92–97% at 1 mM Pyronin B.
View Full ArticleElectrochemical Preparation and Alkaline Water Splitting Activity of Ternary Co–Fe–Mo Non-Crystalline Coatings
Journal: International Journal of Hydrogen Energy (2024), 51, 1450–1459
Short Abstract: Co–Fe–Mo coatings were electrochemically prepared and analyzed by XRF, XRD, and SEM. Mo addition induced amorphous structure, enhancing electrochemical performance for alkaline water splitting. 75 mM Na₂MoO₄ Co–Fe–Mo alloy showed high hydrogen production efficiency at −121 mV overpotential.
View Full ArticleExperimental Studies on the Corrosion Inhibition Performance of 2-(2-Aminophenyl)Benzimidazole for Mild Steel Protection in HCl Solution
Journal: Journal of Taiwan Institute of Chemical Engineers (2022), 134, 104349
Short Abstract: 2-(2-aminophenyl)benzimidazole was evaluated as a corrosion inhibitor for mild steel in HCl solution. Electrochemical tests revealed nearly 99% inhibition efficiency at 10 mM concentration.
View Full ArticleDardagan Fruit Extract as Eco-Friendly Corrosion Inhibitor for Mild Steel in 1 M HCl: Electrochemical and Surface Morphological Studies
Journal: Journal of the Taiwan Institute of Chemical Engineers (2020), 116, 215–222
Short Abstract: Dardagan fruit extract was evaluated as a corrosion inhibitor for mild steel in 1 M HCl. Electrochemical tests revealed nearly 98% inhibition efficiency at 3000 ppm concentration. The inhibitor forms a protective film on the steel surface, reducing corrosion rates.
View Full ArticleSolvent Optimization and Corrosion Inhibition Studies of Rhodanine Self-Assembled Monolayer Films on Copper
Journal: Progress in Organic Coatings (2018), 125, 1–9
Short Abstract: Rhodanine self-assembled monolayer films were prepared on copper surfaces using different solvents. Electrochemical tests and surface morphology analyses revealed significant corrosion inhibition, highlighting the potential of Rh-SAM films as protective coatings for copper.
View Full ArticleMo-Modified Carbon Felt Electrodes for Enhanced Hydrogen Evolution
Journal: International Journal of Hydrogen Energy (2018), 43(23), 10540–10548
Abstract: Molybdenum was electrochemically deposited onto carbon felt to enhance hydrogen evolution activity. The optimal deposition conditions were pH 6, 50 mA current, and 1 g Mo/g C, resulting in a 59.6% increase in current density at -1.60 V(Ag/AgCl) compared to bare carbon felt.
View Full ArticleSpectroscopic Investigations on the Binding of Pyronin Y to Human Serum Albumin
Journal: Journal of Fluorescence (2017), 27(2), 533–544
Abstract: This study systematically investigates the binding interaction of Pyronin Y with human serum albumin (HSA) using fluorescence, absorption, and fluorescence decay lifetime techniques, providing insights into the binding mechanisms and potential biological applications.
View Full ArticleElectrochemical Preparation and Alkaline Water Splitting Activity of Ternary Co–Fe–Mo Non-Crystalline Coatings
Journal: International Journal of Hydrogen Energy (2024), 51, 1450–1459
Short Abstract: Co–Fe–Mo coatings were electrochemically prepared and analyzed by XRF, XRD, and SEM. Mo addition induced amorphous structure, enhancing electrochemical performance for alkaline water splitting. 75 mM Na₂MoO₄ Co–Fe–Mo alloy showed high hydrogen production efficiency at −121 mV overpotential.
View Full ArticleAdsorption and Corrosion Inhibition of Cactus Cladode Extract on Mild Steel in Acidic Medium
Journal: ChemistrySelect (2022), 7 (19), e202200212
Short Abstract: Cactus cladode extract was evaluated for corrosion inhibition on mild steel in acidic medium. Electrochemical tests revealed dose-dependent inhibition efficiency, reaching 91.8% at 1000 ppm. Addition of KI increased efficiency to 97.7%.
View Full ArticleCatalytic Activity of Electrodeposited Ternary Co–Ni–Rh Thin Films for Water Splitting Process
Journal: International Journal of Hydrogen Energy (2020), 45(60), 34805–34817
Short Abstract: Co–Ni–Rh thin films were electrodeposited and characterized by EDX, XRD, and SEM. The hydrogen evolution activity was evaluated in 6 M KOH using current-potential curves and EIS. The results showed that the surface morphology of the electrodes can be tailored by modification of the deposition potential, and higher exchange current densities were observed for the ternary alloys, confirming their better catalytic activity in the water-splitting process.
View Full ArticleMethanol Electrooxidation at Nickel-Modified Rhodanine Self-Assembled Monolayer Films: A New Class of Multilayer Electrocatalyst
Journal: International Journal of Hydrogen Energy (2019), 44(27), 14228–14234
Short Abstract: Nickel-modified rhodanine self-assembled monolayer films were fabricated on copper and characterized by SEM, AFM, and EDX. Electrochemical tests revealed high methanol oxidation activity in 1 M methanol and 0.1 M KOH solution. The enhanced activity was attributed to increased active sites and facilitated oxidation/desorption of adsorbed intermediates.
View Full ArticleMoPd-Modified Carbon Felt Electrodes for Hydrogen Evolution
Journal: International Journal of Hydrogen Energy (2018), 43(23), 10530–10539
Abstract: This study explores the electrochemical deposition of MoPd composites on carbon felt electrodes and their performance in hydrogen evolution reactions. Characterization techniques confirm the uniform distribution of Mo and Pd, leading to enhanced catalytic activity in alkaline solutions.
View Full ArticlePd-Modified Raney-Type NiZn Electrodes for Alkaline Water Electrolysis
Journal: International Journal of Hydrogen Energy (2017), 42(4), 2464–2475
Abstract: This study investigates the enhancement of hydrogen evolution reaction (HER) activity in alkaline water electrolysis by modifying Raney-type NiZn electrodes with palladium (Pd). Electrochemical characterization reveals significant improvements in catalytic performance, suggesting Pd-modified NiZn electrodes as promising candidates for efficient hydrogen production.
View Full ArticleAdsorption of Pyronin Y from Aqueous Solution Using Vermiculite and Clinoptilolite
Journal: Applied Water Science (2014), 4(3), 345–352
Abstract: This study compares the adsorption performances of vermiculite and clinoptilolite for the removal of Pyronin Y from aqueous solutions. Experimental results indicate that both adsorbents are effective, with clinoptilolite demonstrating higher adsorption capacity, suggesting its potential use in water treatment applications.
View Full Article