Protein molecules engaging DNA strands
Published by
Sci. Rep.
Summary
Protein molecules engaging DNA strands
Hamze Mousavi
Professor of Theoretical Solid State Physics
Kermanshah, IR.About
Accomplished Professor and researcher in Theoretical Solid State Physics with over 15 years of experience, specializing in the electronic properties of low-dimensional systems, quantum transport, and superconductivity. Recognized for significant contributions to the field through extensive publications and dedicated mentorship of graduate students, driving advancements in material science and nanotechnology.
Work
Kermanshah, Kermanshah, Iran (Islamic Republic of)
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Summary
Led theoretical solid-state physics research and education, driving advancements in low-dimensional systems and supervising numerous graduate theses at Razi University.
Highlights
Conducted extensive research in theoretical solid state physics, publishing over 76 peer-reviewed articles on quantum transport, graphene, nanostructures, and superconductivity.
Mentored and supervised 13 MSc and 3 PhD candidates, guiding their research on electronic properties of advanced materials and low-dimensional systems.
Awarded as a Distinguished Researcher of Faculty of Science among 60 research staff in 2011, recognizing significant contributions to the field.
Organized and served as an executive committee member for national and international conferences, including the 4th Nanotechnology Conference (2008) and 36th Annual Physics Conference of Iran (2020).
Taught a wide range of undergraduate and graduate courses, including Quantum Mechanics, Solid State Physics, and Computational Physics, fostering advanced scientific understanding.
North Carolina Central University
|Visiting Researcher, Department of Math & Physics
Durham, NC, US
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Summary
Contributed to collaborative research projects in theoretical physics, leveraging expertise in solid-state systems.
Highlights
Engaged in advanced research on theoretical solid-state physics, collaborating with faculty on cutting-edge projects.
Applied expertise in quantum mechanics and condensed matter to contribute to departmental research initiatives.
University of Colorado
|Visiting Researcher, Department of Physics
Boulder, CO, US
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Summary
Participated in research collaborations within theoretical physics, focusing on specific challenges in condensed matter.
Highlights
Collaborated with leading researchers on projects related to advanced theoretical physics and material properties.
Utilized specialized knowledge to support ongoing investigations into quantum phenomena and electronic structures.
Regensburg University
|Visiting Researcher, Department of Physics
Regensburg, Bavaria, Germany
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Summary
Conducted focused research in theoretical physics, contributing to international academic exchange and knowledge sharing.
Highlights
Engaged in short-term intensive research, contributing to the department's theoretical physics studies.
Collaborated with international peers on specific research problems, enhancing inter-institutional scientific dialogue.
Brock University
|Visiting Researcher, Department of Physics
St. Catharines, ON, Canada
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Summary
Undertook research activities within the physics department, contributing to early-career academic development.
Highlights
Participated in research projects, applying theoretical physics principles to experimental or computational studies.
Gained international research experience, broadening scientific perspective and collaborative skills.
Awards
Distinguished Researcher of Faculty of Science
Awarded By
Razi University
Recognized as a distinguished researcher among 60 research staff in the Faculty of Science for significant contributions to the field.
Full Scholarship for PhD
Awarded By
Iranian Ministry of Science and Technology
Awarded a full scholarship to pursue PhD studies, recognizing academic excellence and potential in scientific research.
Publications
A more comprehensive study of electron transport in the DNA ladder strand: Poly(GACT)–poly(CTGA)
Published by
J. Phys. Chem. Solid
Summary
A more comprehensive study of electron transport in the DNA ladder strand: Poly(GACT)–poly(CTGA)
Quantum charge transport in DNA and RNA systems coupled to nanoribbon electrodes
Published by
Discov. Nano
Summary
Quantum charge transport in DNA and RNA systems coupled to nanoribbon electrodes
Assessing protein-RNA coupling
Published by
Sci. Rep.
Summary
Assessing protein-RNA coupling
Electron transport through protein chains interfacing nanoribbon and nanotube leads
Published by
Solid State Commun.
Summary
Electron transport through protein chains interfacing nanoribbon and nanotube leads
Two-band model of T-graphene
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J. Comput. Electron.
Summary
Two-band model of T-graphene
Cyclic Constraint on the protein-RNA/DNA interaction
Published by
Phys. Biol.
Summary
Cyclic Constraint on the protein-RNA/DNA interaction
Viscous DNA and RNA: Quantum damped dynamical random systems
Published by
Biosyst.
Summary
Viscous DNA and RNA: Quantum damped dynamical random systems
Protein-DNA interaction in tight-binding paradigm
Published by
Sci. Rep.
Summary
Protein-DNA interaction in tight-binding paradigm
Protein chains in tight-binding framework
Published by
J. Mol. Model.
Summary
Protein chains in tight-binding framework
Quantum transport in protein chains
Published by
Sci. Rep.
Summary
Quantum transport in protein chains
Superconductivity of metallic graphene
Published by
Solid State Commun.
Summary
Superconductivity of metallic graphene
Metallic nature of T-graphene sheet and nanotubes
Published by
Adv. Nat. Sci.: Nanosci. Nanotechnol.
Summary
Metallic nature of T-graphene sheet and nanotubes
Vibration spectra of DNA and RNA segments
Published by
Eur. Biophys. J.
Summary
Vibration spectra of DNA and RNA segments
Nonlinear mechanical response of finite-length soft composites with random dislocations
Published by
Sci Rep.
Summary
Nonlinear mechanical response of finite-length soft composites with random dislocations
Mechanical response of double-stranded DNA to dynamic excitation
Published by
J. Vib. Control
Summary
Mechanical response of double-stranded DNA to dynamic excitation
A Green's function-tight-binding-based approach for T-graphene Analysis
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Appl. Phys. A
Summary
A Green's function-tight-binding-based approach for T-graphene Analysis
Vibrational properties of DNA in different models
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Mech. Adv. Mater. Struct.
Summary
Vibrational properties of DNA in different models
Calculation of electron transport in short polyyne nanochains
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ECS J. Solid State Sci. Techol.
Summary
Calculation of electron transport in short polyyne nanochains
Electronic behavior of randomly dislocated RNA and DNA nanowires: a multi-model approach
Published by
Eur. Phys. J. Plus
Summary
Electronic behavior of randomly dislocated RNA and DNA nanowires: a multi-model approach
The transport properties of poly(G)-poly(C) DNA oligomers in the Harrison's model
Published by
J. Mol. Graph. Model.
Summary
The transport properties of poly(G)-poly(C) DNA oligomers in the Harrison's model
Metal-semiconductor transition in Ψ-graphene
Published by
Mater. Today Commun.
Summary
Metal-semiconductor transition in Ψ-graphene
Strain effect on the electronic Properties of Graphdiyne
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Thin Solid Films
Summary
Strain effect on the electronic Properties of Graphdiyne
Investigation of heat capacity and magnetic susceptibility of carbon nanodiscs and nanowires in tight-binding approximation
Published by
J. Res. Many. Sys.
Summary
Investigation of heat capacity and magnetic susceptibility of carbon nanodiscs and nanowires in tight-binding approximation
Hydrogenation effects on the thermal and magnetic properties of mono- and bilayer graphene
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Carbon Lett.
Summary
Hydrogenation effects on the thermal and magnetic properties of mono- and bilayer graphene
Tight-binding description of semiconductive conjugated polymers
Published by
Comput. Theor. Chem.
Summary
Tight-binding description of semiconductive conjugated polymers
Electron transport of carbon atoms sequence in two-band model
Published by
Eur. Phys. J. Plus
Summary
Electron transport of carbon atoms sequence in two-band model
Harrison model of polyynic carbyne chains
Published by
ECS J. Solid State Sci. Techol.
Summary
Harrison model of polyynic carbyne chains
Electronic properties of graphyne and graphdiyne in tight-binding model
Published by
ECS J. Solid State Sci. Techol.
Summary
Electronic properties of graphyne and graphdiyne in tight-binding model
Transdimensional epsilon-near-zero modes in planar plasmonic nanostructures
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Phys. Rev. Res.
Summary
Transdimensional epsilon-near-zero modes in planar plasmonic nanostructures
Electronic properties of different configurations of double-strand DNA-like nanowires
Published by
Solid State Commun.
Summary
Electronic properties of different configurations of double-strand DNA-like nanowires
Multi-band tight-binding model of MoS2 monolayer
Published by
J. Elec. Materi.
Summary
Multi-band tight-binding model of MoS2 monolayer
Electrical conductivity of armchair carbon and boron nitride nanotubes in tight-binding model
Published by
Iran. J. Appl. Phys.
Summary
Electrical conductivity of armchair carbon and boron nitride nanotubes in tight-binding model
Magnetic and thermal characteristics of armchair graphene nanoribbons in the two-band Harrison model
Published by
J. Magn. Magn. Mater.
Summary
Magnetic and thermal characteristics of armchair graphene nanoribbons in the two-band Harrison model
Electrical and thermal conductivities of few-layer armchair graphene nanoribbons
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Eur. Phys. J. B
Summary
Electrical and thermal conductivities of few-layer armchair graphene nanoribbons
Graphene nanoribbon superconductor
Published by
J. Low Temp. Phys.
Summary
Graphene nanoribbon superconductor
Optical response of finite-thickness ultrathin plasmonic films
Published by
MRS Communications
Summary
Optical response of finite-thickness ultrathin plasmonic films
Nonlinear electron transport across short DNA segment between graphene leads
Published by
Solid State Commun.
Summary
Nonlinear electron transport across short DNA segment between graphene leads
Semiconducting behavior of substitutionally doped bilayer graphene
Published by
Physics B
Summary
Semiconducting behavior of substitutionally doped bilayer graphene
Electron doping effects on the electrical conductivity of zigzag carbon nanotubes and corresponding unzipped armchair graphene nanoribbons
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Physics E
Summary
Electron doping effects on the electrical conductivity of zigzag carbon nanotubes and corresponding unzipped armchair graphene nanoribbons
Electronic thermal conductivity of armchair graphene nanoribbons and zigzag carbon nanotubes
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Physica E
Summary
Electronic thermal conductivity of armchair graphene nanoribbons and zigzag carbon nanotubes
Pauli magnetic susceptibility of bilayer graphene and hexagonal boron-nitride
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Physica B
Summary
Pauli magnetic susceptibility of bilayer graphene and hexagonal boron-nitride
Electronic heat capacity and thermal conductivity of armchair graphene nanoribbons
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Appl. Phys. A
Summary
Electronic heat capacity and thermal conductivity of armchair graphene nanoribbons
Electrical and thermal conductivities of the graphene, boron nitride and silicon boron honeycomb monolayers
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Phys. Lett. A
Summary
Electrical and thermal conductivities of the graphene, boron nitride and silicon boron honeycomb monolayers
Magnetic susceptibility and heat capacity of graphene in two-band Harrison model
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Physica E
Summary
Magnetic susceptibility and heat capacity of graphene in two-band Harrison model
Electronic properties of impurity-infected few-layer graphene nanoribbons
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Physica B
Summary
Electronic properties of impurity-infected few-layer graphene nanoribbons
Graphene to graphane: two-band approach
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Superlattice Microst.
Summary
Graphene to graphane: two-band approach
Electronic properties of long DNA nanowires in dry and wet conditions
Published by
Solid State Commun.
Summary
Electronic properties of long DNA nanowires in dry and wet conditions
Tight-binding investigation of thermal conductivity of graphene and few-layer graphene systems
Published by
Int. J. Thermophys.
Summary
Tight-binding investigation of thermal conductivity of graphene and few-layer graphene systems
Controlling the band-gap of boron-nitride nanotubes with carbon doping
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J. Elec. Materi.
Summary
Controlling the band-gap of boron-nitride nanotubes with carbon doping
Heat capacity of hexagonal boron nitride sheet in Holstein model
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Semiconductors
Summary
Heat capacity of hexagonal boron nitride sheet in Holstein model
Flake electrical conductivity of few-layer graphene
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Scientific World Journal
Summary
Flake electrical conductivity of few-layer graphene
The Hall conductivity of graphene
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Semiconductors
Summary
The Hall conductivity of graphene
Electronic properties of doped gapped graphene
Published by
Physica B
Summary
Electronic properties of doped gapped graphene
Metallic and semimetallic properties of doped graphene and boron nitride planes
Published by
Solid State Commun.
Summary
Metallic and semimetallic properties of doped graphene and boron nitride planes
Sublattice superconductivity in boron nitride nanotube
Published by
J. Supercond. Nov. Magn.
Summary
Sublattice superconductivity in boron nitride nanotube
Plasmons in spatially separated rolled-up electron-hole double-layer systems
Published by
J. Appl. Phys.
Summary
Plasmons in spatially separated rolled-up electron-hole double-layer systems
Electronic heat capacity and conductivity of gapped graphene
Published by
Physica E
Summary
Electronic heat capacity and conductivity of gapped graphene
Heat capacity of defective semiconducting carbon nanotubes
Published by
Int. J. Therm. Phys.
Summary
Heat capacity of defective semiconducting carbon nanotubes
Electronic specific heat of carbon nanotubes
Published by
Physica Scripta
Summary
Electronic specific heat of carbon nanotubes
Optical conductivity of graphene sheet including electron-phonon interaction
Published by
Commun. Theor. Phys.
Summary
Optical conductivity of graphene sheet including electron-phonon interaction
Carbon dioxide detection by boron nitride nanotubes
Published by
Appl. Phys. A
Summary
Carbon dioxide detection by boron nitride nanotubes
Effects of Holstein phonons on the electrical conductivity of carbon nanotubes
Published by
Physica E
Summary
Effects of Holstein phonons on the electrical conductivity of carbon nanotubes
Optical conductivity of carbon nanotubes
Published by
Optics Commun.
Summary
Optical conductivity of carbon nanotubes
Graphene susceptibility in Holstein model
Published by
J. Magn. Magn. Mater.
Summary
Graphene susceptibility in Holstein model
Gas adsorption effects on the electrical conductivity of semiconducting carbon nanotubes
Published by
Physica E
Summary
Gas adsorption effects on the electrical conductivity of semiconducting carbon nanotubes
Graphene as gas sensors
Published by
Commun. Theor. Phys.
Summary
Graphene as gas sensors
Nitrogen and boron doping effects on the electrical conductivity of graphene and nanotube
Published by
Solid State Sci.
Summary
Nitrogen and boron doping effects on the electrical conductivity of graphene and nanotube
Boron doping effects on graphene susceptibility
Published by
Physica E
Summary
Boron doping effects on graphene susceptibility
Doped graphene as a superconductor
Published by
Phys. Lett. A
Summary
Doped graphene as a superconductor
The impact of gas molecule adsorption on the orbital magnetic susceptibility of graphene
Published by
J. Magn. Magn. Mater.
Summary
The impact of gas molecule adsorption on the orbital magnetic susceptibility of graphene
Effects of adsorbed gas on the electrical conductivity of metallic carbon nanotubes
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Solid State Common.
Summary
Effects of adsorbed gas on the electrical conductivity of metallic carbon nanotubes
On superconductivity state in pure graphene
Published by
Commun. Theor. Phys.
Summary
On superconductivity state in pure graphene
Electron-phonon interaction in carbon nanotubes
Published by
Mod. Phys. Lett. B
Summary
Electron-phonon interaction in carbon nanotubes
Investigation of non-magnetic impurity doping effect on the MgB2 superconductor critical temperature
Published by
J. Phys.: Condens. Matter
Summary
Investigation of non-magnetic impurity doping effect on the MgB2 superconductor critical temperature
The validity of Anderson's theorem for binary alloy s-wave superconductors in the Bardeen–Cooper-Schrieffer regime
Published by
Supercond. Sci. Technol.
Summary
The validity of Anderson's theorem for binary alloy s-wave superconductors in the Bardeen–Cooper-Schrieffer regime
Languages
Persian
English
Skills
Operating Systems
Linux, Windows.
Scientific Software
Mathematica, Gnuplot, Xfig.
Programming
FORTRAN 77.
Editorial Software
Latex, Microsoft Office.
Research Expertise
Theoretical Solid State Physics, Low Dimensional Systems, Disordered Superconductors, Massive Vector Field Quantization, Quantum Transport, Graphene, Nanoribbons, Nanotubes, DNA/RNA Systems, Superconductivity, Magnetic Properties, Thermal Conductivity, Electron-phonon Interaction, Tight-Binding Model, Green's Function Approach.
Academic Leadership
Thesis Supervision, Curriculum Development, Conference Organization, Peer Review, Manuscript Reviewing.
Teaching
Mathematical Physics, Quantum Mechanics, Solid State Physics, Statistical Mechanics, Computational Physics, Many-body Physics, Advanced Quantum Mechanics, Semiconductors, Superconductivity, Vibration and Waves, Basics Physics.
Interests
Research
Electronic properties of low dimensional systems.
References
Dr. Marek Grabowski
Department of Physics, University of Colorado, Email: mgarbows@uccs.edu
Dr. Abdolhamid Alizadeh
Faculty of Physics & Chemistry, Alzahra University, Email: a.alizadeh@alzahra.ac.ir
Projects
MSc Thesis Supervision: Magnetic field effects on the electronic properties of graphene nanoribbons
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Summary
Supervised a Master's thesis focused on the influence of magnetic fields on the electronic properties of graphene nanoribbons, contributing to spintronics research.
MSc Thesis Supervision: Electrical conductivity of few-layer graphene and hexagonal boron nitride sheets
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Summary
Supervised a Master's thesis analyzing the electrical conductivity of few-layer graphene and hexagonal boron nitride sheets, exploring their potential in advanced electronics.
MSc Thesis Supervision: Electronics properties of few-layer graphene nanoribbons
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Summary
Supervised a Master's thesis on the electronic properties of few-layer graphene nanoribbons, contributing to the understanding of their quantum mechanical behavior.
MSc Thesis Supervision: Thermal conductivity of graphene plane, graphene nanoribbons and nanotubes
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Summary
Supervised a Master's thesis investigating the thermal conductivity of various graphene structures, crucial for thermal management in nanotechnology.
MSc Thesis Supervision: Susceptibility and heat capacity of graphene nanoribbons in Harrison Model
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Summary
Supervised a Master's thesis using the Harrison Model to analyze the magnetic susceptibility and heat capacity of graphene nanoribbons, advancing theoretical understanding of their thermodynamic properties.
MSc Thesis Supervision: Investigation of thermal conductivity of bilayer graphene, boron nitride and beryllium oxide by Kubo formula
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Summary
Supervised a Master's thesis applying the Kubo formula to investigate the thermal conductivity of bilayer graphene, boron nitride, and beryllium oxide, offering insights into their heat transport mechanisms.
MSc Thesis Supervision: Investigation of states density and heat capacity of armchair nanoribbons by Green's function approach
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Summary
Supervised a Master's thesis utilizing the Green's function approach to investigate the density of states and heat capacity of armchair nanoribbons, deepening understanding of their electronic and thermodynamic properties.
MSc Thesis Supervision: Quantum transport in finite DNA strands with metallic armchair graphene nanoribbon leads
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Summary
Supervised a Master's thesis on quantum transport in finite DNA strands coupled with metallic armchair graphene nanoribbon leads, exploring bio-nanoelectronic interfaces.
MSc Thesis Supervision: Investigation of electronic properties of polymers in tight-binding model
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Summary
Supervised a Master's thesis investigating the electronic properties of polymers using the tight-binding model, crucial for organic electronics applications.
MSc Thesis Supervision: Investigating electronic properties of two-dimensional hexagonal lattices black phosphorus and blue phosphorus and comparing them with graphene in tight-binding model
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Summary
Supervised a Master's thesis comparing the electronic properties of black and blue phosphorus with graphene using the tight-binding model, advancing research in novel 2D materials.
MSc Thesis Supervision: Electronic properties of Ψ-graphene
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Summary
Supervised a Master's thesis on the electronic properties of Ψ-graphene, exploring novel graphene allotropes and their potential applications.
MSc Thesis Supervision: T-graphene nanotubes and nanoribbons
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Summary
Supervised a Master's thesis focused on the properties of T-graphene nanotubes and nanoribbons, contributing to the understanding of their structural and electronic behaviors.
PhD Thesis Supervision: Electronic properties of graphene and low-dimensional carbon materials
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Summary
Supervised a PhD thesis on the electronic properties of graphene and other low-dimensional carbon materials, driving fundamental research in advanced materials science.
PhD Thesis Supervision: Electronic properties of graphene and organic nanostructures
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Summary
Supervised a PhD thesis investigating the electronic properties of graphene and organic nanostructures, bridging inorganic and organic material physics.
PhD Thesis Supervision: Electron transport in low-dimensional systems
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Summary
Supervised a PhD thesis on electron transport phenomena in low-dimensional systems, contributing to fundamental understanding and potential applications in nanoelectronics.
MSc Thesis Supervision: Effects of gas adsorption on the electrical conductivity of carbon nanotubes
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Summary
Supervised a Master's thesis investigating the impact of gas adsorption on the electrical conductivity of carbon nanotubes, analyzing material behavior under specific environmental conditions.