Dr. Komeil Nasouri

Dr. Komeil Nasouri

k.nasouri@iut.ac.ir
Office
Department of Textile Engineering, Isfahan University of Technology
Phone
+98 313 3911090
Fax
+98 313 3912444
Positions
Associate Professor, Department of Textile Engineering
Research Interests
High-Tech Fibers
Textile recycling
Magnetic Nanoparticles
Composite Nanofibers
EMI Shielding and Microwave Absorption
type: Journal
Title Conference / Journal Date
Improving the synthesis route of Cr2AlC MAX phases and Cr2CTx MXene nanosheets from cost-effective precursor materials JOURNAL OF MATERIALS RESEARCH
Layer-by-layer coating of nickel/ Ti3C2Tx MXene textiles for superior electromagnetic interference shielding and electrothermal applications Surfaces and Interfaces
Eco-Friendly Synthesis of MXene Nanoflakes from Agricultural Waste and the Influence of Flake Size and Layer Number on Antibacterial, Photothermal, and EMI Shielding Performance of Functional Textiles Advanced Materials Technologies
Enhanced structural, mechanical, and photothermal antibacterial properties of electrospun nanofibers by incorporation of titanium carbide Surfaces and Interfaces
Low-cost and durable flexible graphite nanosheets/ polydimethylsiloxane (PDMS)/ electrospun nanofiber composites for electromagnetic shielding and electrothermal applications Journal of the Taiwan Institute of Chemical Engineers
Multifunctional electrospun polyamide 6/ochre/carbon black nanofibers for UV protection, flame retardancy, and photothermal antibacterial applications Journal of Materials Chemistry C
Low-cost and long-lived carbon black-embedded polystyrene/polyacrylonitrile electrospun nanofibers for high-performance oil adsorption Journal of Water Process Engineering
Designing, modeling, and multi-response optimization of Ni/Co-coated carbon fibers for electromagnetic shielding and electrothermal applications Journal of the Taiwan Institute of Chemical Engineers
In situ synthesis of Fe3O4/ carboxylated multi-walled carbon nanotubes nanostructures on nylon fabric with efficient flame retardant and antibacterial properties COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
Multi-response modeling and optimization of mechanical properties of extracted date palm fibers using Box-Behnken design Materials Today Communications