Prof. Mehran Ghiaci

Prof. Mehran Ghiaci

mghiaci@iut.ac.ir
Office
Department of Chemistry, Isfahan University of Technology, Room 48, 8415683111, Isfahan, Iran
Phone
0098-3133913254
Fax
0098-311-3912350
Positions
Full Professor of Organic Chemistry
Research Interests
Heterogeneous Catalysis & Nanocatalyst
Kinetic Studies on Heterogeneous Catalytic Reactions
Application of Clay and Modified Clay in Organic Synthesis
Synthesis and Application of zeolites in Organic Synthesis
Novel Drug Delivery Systems
Fuel Cell
Sensors & Biosensors
Fine Chemicals
Adsorption
Enzyme Immobilization
type: Journal
Title Conference / Journal Date
Sustainable design of imidazolium-based poly(ionic liquids) and their metal oxide composites for potent antibacterial applications Results in Engineering
Substituent effect on the reactivity of liquid organic hydrogen carriers: A DFT study on methylcyclohexane dehydrogenation over Pt13 cluster INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Impregnation-synthesized ZnO/CuO hybrid for high-efficiency methylene blue degradation in wastewater treatment application Results in Engineering
Fabrication of a novel magnetic carbon nanotube coated with polydopamine modified with EDTA for removing Cd2+ and Pb2+ ions from an aqueous solution Heliyon
Theoretical study of the electronic structure of the complexes of gold, silver, and copper mono- and bimetallic nanoclusters decorated on graphitic carbon nitride (g-C3N4): DFT and TD-DFT studies of photocatalytic activity
An investigation into the effect of polyvinylpyrrolidone on the size and distribution of nickel catalyst particles for controlling CNTs' morphology and growth mechanisms in fabricated hybrid CF-CNT nanocomposite
Study of fabrication and CNT growth mechanisms of hybrid CFF/CNT composites
Degradation mechanism and oxidation kinetics of C60 fullerene
In situ generated Ligand-Free gold nanoparticles in polyvinylpyrrolidone solution assisted laser in liquid method for green oxidation of cyclohexane to adipic acid with high yield
Ethyl benzene oxidation under aerobic conditions using cobalt oxide imbedded in nitrogen-doped carbon fiber felt wrapped by spiral TiO2-SiO2