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| Professor. Dr. M. T. Ahmadi, currently is a full professor at physics department (Nanoelectronic), Urmia University, also he was former deputy dean (research) at faculty of nanotechnology, Urmia University, Resreach fellow at University of Warwick (United Kingdom UK), Visiting associate professor at Malaysia-Japan Institute of Technology (MJIIT) , Visiting associate professor at Universiti Teknologi Malaysia (UTM) , invited senior researcher at Universiti Teknologi Malaysia and Assistant Professor of Electrical Engineering at Universiti Teknologi Malaysia (UTM 2010-2013). He received his Ph.D. degree in Electrical Engineering as well as completed his post doctoral program, at Makmal nano Universiti Teknologi Malaysia on graphene based nanoelectronic devices. Dr Ahmadi was awarded Universiti Teknologi Malaysia (UTM) chancellor award, UTM best publication award (CITRA KARISMA 2013), UTM Academic excellence award, UTM Post Doctoral Fellowship Award, Best PhD student Award (International Student Center Iranian Student Society). His research interests include nanoscale non-classical device (sensors and transistors) simulation, modeling and characterization. Dr Ahmadi authored or coauthored three books and over 180 papers on scientific issues. As a scientific committee of first Iranian conference for postgraduate students 2011/Iranian national superconductor conference 2016/ he edited the conference proceeding. Dr Ahmadi is the founder and top manager of Mahan nanotechnology company (umnt.ir), founder and head of nanophysics research lab (Urmia University, Urmia, Iran) and founder of nanotechnology lab in the Emamsadegh research center (Takab, Iran).Dr Ahmadi is listed on Malaysian top 30 nanotechnology scientist (INN), Who&rsquos Who in the World 2010, also top100 engineer 2010 by IBC also nominated as a man of the year 2013. |
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نام و نام خانوادگی
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مدرک تحصیلی |
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درجه علمی |
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بخش مربوطه
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ایمیل
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آدرس سایت
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| | مقالات ژورنال (104) |
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| 1-Vahideh Khadem Hosseini, Mohammad Taghi Ahmadi, Razali Ismail, 2018, 3. Analysis and Modeling of Fullerene Single Electron Transistor Based on Quantum Dot Arrays at Room Temperature • May 2018•
,• Journal of Electronic Materials. | |
| 2-• Vahideh Khadem Hosseini, Daryoosh Dideban, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Analysis and modeling of quantum capacitance on graphene single electron transistor • Jul 2018
,• International Journal of Modern Physics B. | |
| 3-• Hadi Kasani, Rasoul Khoda-Bakhsh, Mohammad Taghi Ahmadi, 2018, Electrical parameters retrieval of carbon nanoparticle-based metal semiconductor metal structure by standard methods and beta-ray-induced charge • Apr 2018•
,• Radiation Effects and Defects in Solids. | |
| 4-• Ali Yousefvand, Mohammad Taghi Ahmadi, Bahar Meshginqalam, Saeid Afrang, 2018, The Analytical Modeling of the Uniaxial Strain Effect on the Carrier Statistic of Graphene Nanoribbon • Mar 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 5-B Rouzkhash, A Salehi, MT Ahmadi, 1399, γ-Graphyne-1 band structure modeling and simulation,Solid State Communications . | |
| 6-Mohamad Taghi Ahmadi*,1,2 , Banafsheh Alizadeh Arashloo1, Truong-Khang Nguyen1, 2021, Analytical Modeling of Graphene Oxide Based Memristor,AinShams Journal Engineering . | |
| 7-Milad Moutab Sahihazar, Mina Nouri, Meisam Rahmani, Hadi Kasani, 2018, Fabrication of Carbon Nanoparticle Strand under Pulsed Arc Discharge • • Jun 2018•
,Plasmonics. | |
| 8-V. Khakia, Mohammad Taghi Ahmadib,c, *, M. Hassanzadazard , Truong Khang Nguyenb,c, 2021, Silicon doping effect on the electronic behavior of graphene nanoscroll,Journal of Electronic Materials. | |
| 9-Vahideh Khademhosseini,1 Daryoosh Dideban,1, 2,z and Mohammad Taghi Ahmadi, 2020, An analytical approach for current modeling in a single electron transistor (SET) utilizing graphene nanoscroll (GNS) as the island,ECS Journal of Solid State Science and Technology. | |
| 10-MOHAMAD TAGHI AHMADI, RAMIN AHMADI, and TRUONG KHANG NGUYEN, 2020, Graphene Nanoscroll Geometry Effect on Transistor Performance,Journal of Electronic Materials. | |
| 11-Mohammad Taghi Ahmadi, Neda Mousavi, Truong Khang Nguyen, Seyed Saeid Rahimian Koloor and Michal Petru˚, 2020, Carbon Nanoparticle-Based Electro-Thermal Building Block,Applied Sciences. | |
| 12-Mohammad Taghi Ahmadi, Ahmad Razmdideh , Seyed Saeid Rahimian Koloor and Michal Petrů, 2020, Carbon‐Based Band Gap Engineering in the h‐BN Analytical Modeling,Materials. | |
| 13-• Wei Hong Lim, Afiq Hamzah, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Performance analysis of one dimensional BC 2 N for nanoelectronics applications • Apr 2018•
,• Physica E Low-dimensional Systems and Nanostructures. | |
| 14-• Ramin ahmadi, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Carbon Nano-particle Synthesized by Pulsed Arc Discharge Method as a Light Emitting Device • Apr 2018•
,• Journal of Electronic Materials. | |
| 15-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi , Komeil Rahmani, 2018, An Analytical Approach to Model the Optical Properties of Carbon Nanotubes for Plasmonic Devices • 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 16-Vahideh Khadem Hosseini,Mohammad Taghi Ahmadi, Saeid Afrang, 2018, Analysis and Simulation of Coulomb Blockade and Coulomb Diamonds in Fullerene Single Electron Transistors • 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 17-• Soheil Mahdian Toroghi, Mohammad Taghi Ahmadi, Mir Maqsood Golzan, Rahil Mahdian, 2018, Hardness Study of Carbon Nanotube and Silicon Transistors Under the High Energy Electron Beam Radiation Effect
,• Journal of Nanoelectronics and Optoelectronics. | |
| 18-• Banafsheh Alizadeh Arashloo, Mohammad Taghi Ahmadi, 2018, 10. Set Characteristics of Bipolar Graphene Oxide Based Memristor • 2018• ,• Journal of Nanoelectronics and Optoelectronics. | |
| 19-Banafsheh Alizadeh Arashloo,Mohammad Taghi Ahmadi, Saeed Afrang, 2017, 12. The Band Energy Engineering on High Epoxy (or Hydroxyl) Content Graphene Oxide • Dec 2017
,Surface Review and Letters . | |
| 20-• Ali H Pourasl , Mohammad Taghi Ahmadi, Razali Ismail,Niayesh Gharaei, 2017, 13. Analytical modelling and simulation of gas adsorption effects on graphene nanoribbon electrical properties • Dec 2017•
,• Molecular Simulation. | |
| 21-• Sayed Norollah Hedayat, Mohammad Taghi Ahmadi, Hassan Sedghi, Shahram Moradi, 2017, 15. Quantum Transport Mode in Graphene Nanoribbon Based Transistor • Sep 2017•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 22-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi, Komeil Rahmani, 2017, 14. Analytical prediction of carbon nanoscroll-based electrochemical glucose biosensor performance • Sep 2017•
,• International Journal of Environmental Analytical Chemistry. | |
| 23-• Ali Yousefvand, Mohammad Taghi Ahmadi,Bahar Meshginqalam, 2017, 17. Analytical Modeling of Acoustic Phonon-Limited Mobility in Strained Graphene Nanoribbons • Jul 2017•
,• Journal of Electronic Materials. | |
| 24-Wei Hong Lim, Afiq Hamzah, Mohammad Taghi Ahmadi, Razali Ismail, 2017, 16. Band Gap Engineering of BC 2 N for Nanoelectronic Applications • Sep 2017•
,• Superlattices and Microstructure. | |
| 25-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi, Komeil Rahmani, 2017, 18. Investigating the Mobility of Trilayer Graphene Nanoribbon in Nanoscale FETs • Jun 2017•
,• Journal of Electronic Materials. | |
| 26-• Ali H Pourasl, Mohammad Taghi Ahmadi, Razali Ismail, Niayesh Gharaei, 2017, 19. Gas adsorption effect on the graphene nanoribbon band structure and quantum capacitance • • Jun 2017•
,Adsorption. | |
| 27-Amir Fathi • M. T. Ahmadi • Razali Ismail , 2016, 29. Carrier velocity effect on carbon nanotube Schottky contact ,Aug 2016 • Semiconductors 2016. | |
| 28-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi ,Komeil Rahmani, 2017, Analytical investigation on the electrooptical properties of graphene nanoscrolls for SPR-based sensor application • Jun 2017•
,• Journal of Computational Electronics. | |
| 29-Bahar Meshginqalam • Hamid Toloue • Mohammad Taghi Ahmadi • [...] • Razali Ismail
, 2016, 31. Graphene embedded surface plasmon resonance based sensor prediction model
,Jun 2016 • Optical and Quantum Electronics 2016. | |
| 30-• Ali H Pourasl, Mohammad Taghi Ahmadi, Razali Ismail, 2017, 21. Carrier Relaxation Time Modelling of Monolayer Black Phosphorene • Jun 2017•
,• Micro & Nano Letters. | |
| 31-B Meshginqalam, HT AT, MT Ahmadi, A Sabatyan, 2016, 34. Engineer-able optical properties of trilayer graphene nanoribbon ,Physica Scripta 91 (3), 035802 2016. | |
| 32-• S. N Hedayat, Mohammad Taghi Ahmadi, Hadi Sedghi, Hadi Goudarzi, 2017, 22. Geometry Effect on Graphene Nano Scroll Based Double Barrier Transistor • May 2017•
,• Journal of Computational and Theoretical Nanoscience. | |
| 33-AT Hamid Toloue, A Centeno, MT Ahmadi, 2016, 35. An Improved Sensitivity SPR Biosensor Using Multilayer Graphene ,Advanced Materials Research 1133, 103-107 2016. | |
| 34-• Vahideh Khadem Hosseini, Mohammad Taghi Ahmadi, Saeid Afrang, Razali Ismail, 2017, Current Analysis and Modeling of Fullerene Single-Electron Transistor at Room Temperature • Feb 2017•
,• Journal of Electronic Materials. | |
| 35-H Kasani, MT Ahmadi, R Khoda-Bakhsh, D RezaeiOchbelagh, R Ismail , 2016, Influences of Sr-90 beta-ray irradiation on electrical characteristics of carbon nanoparticles
,Journal of Applied Physics 119 (12), 124510. | |
| 36-• Hadi Kasani, R. Khodabakhsh, Mohammad Taghi Ahmadi, Razali Ismail, 2017, Electrical Properties of MWCNT/HDPE Composite-Based MSM Structure Under Neutron Irradiation • Feb 2017•
,• Journal of Electronic Materials. | |
| 37-HediyehKarimi, Rasoul Rahmani, Mohammad Taghi Ahmadi, Razali Ismail, , 2015, 37. Modelling effective charge density in graphene based LGFET DNA sensor, ,Science of Advanced Materials 2015. | |
| 38-• Ali H Pourasl, Mohammad Taghi Ahmadi ,Meisam Rahmani, Razali Ismail, 2017, Graphene Based Biosensor Model for Escherichia Coli Bacteria Detection • ,Journal of Nanoscience and Nanotechnology • Jan 2017• . | |
| 39-N A Izuani Che Rosid • M T Ahmadi • Razali Ismail , 2016, Strain effect on graphene nanoribbon carrier statistic in the presence of non-parabolic band structure
,Sep 2016 • Chinese Physics B 2016. | |
| 40-Bahar Meshginqalam • Mohammad Taghi Ahmadi • Razali Ismail • Arash Sabatyan , 2016, 2Graphene/Graphene Oxide-Based Ultrasensitive Surface Plasmon Resonance Biosensor
,Dec 2016 • Plasmonics 2016. | |
| 41-EW Lim, MT Ahmadi, R Ismail, 2016, 32. Modeling and simulation of graphene-oxide-based RRAM ,Journal of Computational Electronics 15 (2), 602-610 2016. | |
| 42-Bahar Meshginqalam • Mohammad Taghi Ahmadi • Arash Sabatyan • Razali Ismail , 2016, The Effect of Molecular Adsorption on Electro-Optical Properties of Graphene-Based Sensors
,Sep 2016 • Plasmonics 2016. | |
| 43-VK Hosseini, AK Jameil, MT Ahmadi, 2015, ANALYSIS OF TEMPERATURE LIMITATION OF GRAPHENE SINGLE ELECTRON TRANSISTOR ,ANALYSIS, 568-573. | |
| 44-M. Hassanzadazar • M. T. Ahmadi • Razali Ismail • Hadi Goudarzi , 2016, 30. Electrical Property Analytical Prediction on Archimedes Chiral Carbon Nanoscrolls
,• Jun 2016 • Journal of Electronic Materials 2016. | |
| 45-WK Kiat, R Ismail, MT Ahmadi , 2015, Contact Effect on the Current–Voltage Characteristic of Graphene Nanoribbon Based Schottky Diode
,Journal of Computational and Theoretical Nanoscience 12 (3), 478-483. | |
| 46-MJ Kiani, MAA Razak, FK Che Harun, MT Ahmadi, M Rahmani, 2015, SWCNT-Based Biosensor Modelling for pH Detection ,Journal of Nanomaterials 2015. | |
| 47-MJ Kiani, MAA Razak, FK Che Harun, MT Ahmadi, M Rahmani, 2015, SWCNT-Based Biosensor Modelling for pH Detection ,Journal of Nanomaterials 2015. | |
| 48-WK Kiat, R Ismail, MT Ahmadi , 2015, Contact Effect on the Current–Voltage Characteristic of Graphene Nanoribbon Based Schottky Diode
,Journal of Computational and Theoretical Nanoscience 12 (3), 478-483 2015. | |
| 49-A Hamzah, M Taghi Ahmadi, R Ismail , 2015, Analytical Study of Electronic Structure in Archimedean Type-Spiral Zig-Zag Graphene Nanoscroll 11 (1), 87-94
,Current Nanoscience. | |
| 50-محمد تقی احمدی, 1394, FABRICATION OF CARBON NANOPARTICLE / POLYMER NANOCOMPOSITE BASED THERMOMETER H.,Diyala Journal of Engineering Sciences. | |
| 51-محمد تقی احمدی, 1394, INVESTIGATION ON OPTICAL AND ELECTRICAL PROPERTIES OF BILAYER GRAPHENE,Diyala Journal of Engineering Sciences. | |
| 52-محمد تقی احمدی, 1394, Engineer-able optical properties of trilayer graphene nanoribbon,Physica Scripta. | |
| 53-محمد تقی احمدی, 1394, Modelling Effective Charge Density in Graphene-Based DNA Sensor,Science of Advanced Materials. | |
| 54-محمد تقی احمدی, 1394, QUANTUM CURRENT MODELLING ON GRAPHENE NANOSCROLLS,Diyala Journal of Engineering Sciences. | |
| 55-محمد تقی احمدی, 1394, TEMPERATURE DETECTION BY CARBON NANO PARTICLE BASED SENSOR,Diyala Journal of Engineering Sciences. | |
| 56-محمد تقی احمدی, 1394, ANALYSIS OF TEMPERATURE LIMITATION OF GRAPHENE SINGLE ELECTRON TRANSISTOR,Diyala Journal of Engineering Science. | |
| 57-Mohammad Javad Kiani1,2, Ahmadi MT1,4 , Elnaz Akbari3, Meisam Rahmani1, Hediyeh Karimi3 and Che Harun FK1, 1393, Analytical Modeling of Bilayer Graphene Based Biosensor,Biosensors and Bioelectronics. | |
| 58-محمد تقی احمدی, 1393, Analytical Prediction of Liquid-Gated Graphene Nanoscroll Biosensor Performance,RSC advances. | |
| 59-محمد تقی احمدی, 1393, Bilayer Graphene Application on NO2 Sensor Modelling,Nanomaterials. | |
| 60-محمد تقی احمدی, 1393, Conductance modulation of charged lipid bilayer,nanoscale research letters. | |
| 61-محمد تقی احمدی, 1393, Gas Concentration Effects on the Sensing Properties of Bilayer Graphene,Plasmonics. | |
| 62-Meisam Rahmani,1 Razali Ismail,1 Mohammad Taghi Ahmadi,1,2 Mohammad Javad Kiani,3, 1393, The Effect of Bilayer Graphene Nanoribbon Geometry on,Journal of Nanomaterials. | |
| 63-محمد تقی احمدی, 1393, Carrier Statistics and Quantum Capacitance Models of,nanomaterials. | |
| 64-محمد تقی احمدی, 1393, Trilayer Graphene Nanoribbon Field Effect Transistor,Telekomnika. | |
| 65-محمد تقی احمدی, 1392, Analytical Calculation of Sensing Parameters on Carbon Nanotube Based Gas Sensors,Sensors. | |
| 66-محمد تقی احمدی, 1392, Analytical modeling of glucose biosensors based on carbon,nanoscale research letters. | |
| 67-محمد تقی احمدی, 1392, Analytical Modeling of Monolayer Graphene-Based NO2 Sensor,sensor Letters. | |
| 68-محمد تقی احمدی, 1392, kiani-Nanoscale-2013-Analytical modelling of monolayer graphene-based,Nanoscale research letters. | |
| 69-محمد تقی احمدی, 1392, Layer Effect on Graphene Nanoribbon,Computational and Theoretical Nanoscience. | |
| 70-محمد تقی احمدی, 1392, meisam-ac-nanoscaleresearchletters-Analytical modeling of trilayer graphene nanoribbon Schottky-barrier FET for,nanoscale research letters. | |
| 71-محمد تقی احمدی, 1392, Semi Analytical Modeling of Quantum Capacitance of,Computational and Theoretical Nanoscience. | |
| 72-محمد تقی احمدی, 1392, Development of solution-gated graphene,nanoscale research letters. | |
| 73-محمد تقی احمدی, 1392, Gas Concentration Effect on Channel Capacitance in,Computational and Theoretical Nanoscience. | |
| 74-محمد تقی احمدی, 1392, Geometry Effect on Graphene Nanoscrolls Band Gap,Computational and Theoretical Nanoscience. | |
| 75-محمد تقی احمدی, 1392, Ionization coefficient of monolayer graphene nanoribbon),Microelectronics Relailbility. | |
| 76-محمد تقی احمدی, 1392, Performance of Bilayer Graphene Nanoribbon Schottky,Computational and Theoretical Nanoscience. | |
| 77-محمد تقی احمدی, 1392, Structural and Properties of Graphene Nanobelts,Computational and Theoretical Nanoscience. | |
| 78-محمد تقی احمدی, 1392, Quantum Capacitance Effect on Bilayer Graphene,Journal of Nanoengineering and Nanomanufacturing. | |
| 79-محمد تقی احمدی, 1392, QUANTUM CAPACITANCE EFFECT ON ZIG-ZAG GRAPHENE,Modern Physics Letters B. | |
| 80-محمد تقی احمدی, 1391, Capacitance Variation of Electrolyte-Gated Bilayer,Journal of Nanomaterials. | |
| 81-محمد تقی احمدی, 1391, Schottky Current in Carbon Nanotube-Metal Contact,Computational and Theoretical Nanoscience. | |
| 82-محمد تقی احمدی, 1391, The Effect of Applied Voltage on the Carrier Effective,Computational and Theoretical Nanoscience. | |
| 83-محمد تقی احمدی, 1391, Carrier Motion Effect on Bilayer Graphene,Computational and Theoretical Nanoscience. | |
| 84-محمد تقی احمدی, 1391, Theory of Ionization Mechanism in,Computational and Theoretical Nanoscience. | |
| 85-محمد تقی احمدی, 1391, Degeneracy Effect on Carrier transport in Bilayer Graphene,International Journal of Nano Devices, Sensors and Systems (IJ-Nano). | |
| 86-محمد تقی احمدی, 1391, Optimization of DNA Sensor Model Based Nanostructured,Journal of Nanomaterials. | |
| 87-محمد تقی احمدی, 1391, The impact of germanium in strained Si/relaxed Si1xGex on carrier performance in non-degenerate and degenerate regimes,Semiconductors. | |
| 88-محمد تقی احمدی, 1391, The Sub-Band Effect on the Graphene,Nanoelectronics and Optoelectronics. | |
| 89-محمد تقی احمدی, 1390, Analitical modeling of high performance t,microelectronics. | |
| 90-محمد تقی احمدی, 1390, Design and Analysis of a New Carbone Nanotube Full Adder Cell,Journal of nano materials. | |
| 91-محمد تقی احمدی, 1390, Graphene Nanoribbon Conductance Model in Parabolic Band Structure,nanomaterials. | |
| 92-محمد تقی احمدی, 1390, Modelling of Graphene Nanoribbon Fermi Energy,Nanomaterials. | |
| 93-محمد تقی احمدی, 1390, A model for length of saturation velovcity,Microelectronics. | |
| 94-محمد تقی احمدی, 1390, Low-Dimensional Carrier Statistics in Nanostructures,current Nano science. | |
| 95-محمد تقی احمدی, 1390, LOW-FIELD MOBILITY MODEL ON PARABOLIC BAND ENERGY OF GRAPHENE,Modern Physics Letters B. | |
| 96-محمد تقی احمدی, 1390, Monolayer Graphene Nanoribbon,Science of Advanced Materials. | |
| 97-محمد تقی احمدی, 1390, Single Wall Carbon Nanotube Field,Computational and Theoretical Nanoscience. | |
| 98-محمد تقی احمدی, 1389, Analysis and simulation of carriers statistic for semiconducting singl,Materials Research Innovations. | |
| 99-محمد تقی احمدی, 1389, Analytical Study of Drift Velocity in Low Dimensional Devices,journal fundamental science. | |
| 100-محمد تقی احمدی, 1389, P-Type Silicon Nanowire Transistor Modeling,International Journal of Recent Trends in Engineering. | |
| 101-محمد تقی احمدی, 1389, Band structure effect on Carbon Nanotube Fermi Energy,International Review of PHYSICS. | |
| 102-محمد تقی احمدی, 1389, Current–voltage characteristics of a silicon nanowire transistor,Microelectroncs. | |
| 103-محمد تقی احمدی, 1389, The Ultimate Ballistic Drift Velocity in Carbon Nanotubes,nanomaterials. | |
| 104-محمد تقی احمدی, 1386, semiolation of CNT growth,Chemical physics letters. |
| | | مقالات و خلاصه مقالات ارائه شده در همايش ها (10) |
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| 1- 1393, Electrode Gap effect on Carbon Nanotube,ISC2014, KL,Malaysia. | |
| 2- 1393, Electrode geometry effect on carbon nanotube based sensor,ISC2014, KL,Malaysia. | |
| 3- 1394, Fabrication of Carbon nanoparticle/polymer based temperature sensor,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 4- 1394, Graphene Based Surface Plasmon Resonance Bio-sensor Modeling,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 5- 1394, Quantum Current Modeling on Graphene Nanoribbons,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 6- 1394, Simulating Hall Voltage within Graphene Layers for High Efficiency Dye Sensitized Solar Cells,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 7- 1393, Simulation Study on Graphene Nanoribbon based Feil Effect Transistors,ISC2014, KL,Malaysia. | |
| 8- 1394, Tunable Refractive Index of Trilayer Graphene Nanoribbon Modeling,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 9- 1394، بررسی محدودیت دمایی ترانسیستورهای تک الکترونی با استفاده از گرافن،Annual RIAPA Meeting on Low Dimensional Systems، 25-26 May2015، Tabriz،Iran. | |
| 10- 1394، بررسی ه?خصی جریان-ولتاژ در Nanoscale CMOS بر پایه گرافن،Annual RIAPA Meeting on Low Dimensional Systems، 25-26 May2015، Tabriz،Iran. |
| | | کتاب های چاپ شده (3) |
| | | | پروژه های تحقیقاتی (1) |
| | | | پایان نامه ها (8) |
| |
| 1-Mir Ahmad Hosini، 1393، Graphene based Schottky transistor modeling and fabrication، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 2-Sadegh Ebrahimian، 1393، Design and fabrication of CNT based gas sensor، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 3-Mohsen Karimi، 1393، optical property investigation on CNT Non liner، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 4-Sepide Lilasi، 1393، Nanoscale Graphene based Schottky transistor Simulation، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 5-Tohid Shokati، 1393، Gas sensor fabrication based on CNT application، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 6-Solmaz mohammadpor، 1393، Radioactive radiation effect on Schottky transistors، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 7-mariam heidarzade، 1393، Growth modeling for carbon nanotube by arc discharge، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 8-mariam sheikhi، 1392، Carbon nanotube growth and simulation، پایان نامه كارشناسي ارشد، استاد راهنما. |
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نام و نام خانوادگی
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محمدتقی احمدی
-
مدرک تحصیلی
-
دکتری مهندسی برق
بیوگرافی کوتاه
| | Professor. Dr. M. T. Ahmadi, currently is a full professor at physics department (Nanoelectronic), Urmia University, also he was former deputy dean (research) at faculty of nanotechnology, Urmia University, Resreach fellow at University of Warwick (United Kingdom UK), Visiting associate professor at Malaysia-Japan Institute of Technology (MJIIT) , Visiting associate professor at Universiti Teknologi Malaysia (UTM) , invited senior researcher at Universiti Teknologi Malaysia and Assistant Professor of Electrical Engineering at Universiti Teknologi Malaysia (UTM 2010-2013). He received his Ph.D. degree in Electrical Engineering as well as completed his post doctoral program, at Makmal nano Universiti Teknologi Malaysia on graphene based nanoelectronic devices. Dr Ahmadi was awarded Universiti Teknologi Malaysia (UTM) chancellor award, UTM best publication award (CITRA KARISMA 2013), UTM Academic excellence award, UTM Post Doctoral Fellowship Award, Best PhD student Award (International Student Center Iranian Student Society). His research interests include nanoscale non-classical device (sensors and transistors) simulation, modeling and characterization. Dr Ahmadi authored or coauthored three books and over 180 papers on scientific issues. As a scientific committee of first Iranian conference for postgraduate students 2011/Iranian national superconductor conference 2016/ he edited the conference proceeding. Dr Ahmadi is the founder and top manager of Mahan nanotechnology company (umnt.ir), founder and head of nanophysics research lab (Urmia University, Urmia, Iran) and founder of nanotechnology lab in the Emamsadegh research center (Takab, Iran).Dr Ahmadi is listed on Malaysian top 30 nanotechnology scientist (INN), Who&rsquos Who in the World 2010, also top100 engineer 2010 by IBC also nominated as a man of the year 2013. |
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رزومه آموزشی و پژوهشی
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| | مقالات ژورنال (104) |
| |
| 1-Vahideh Khadem Hosseini, Mohammad Taghi Ahmadi, Razali Ismail, 2018, 3. Analysis and Modeling of Fullerene Single Electron Transistor Based on Quantum Dot Arrays at Room Temperature • May 2018•
,• Journal of Electronic Materials. | |
| 2-• Vahideh Khadem Hosseini, Daryoosh Dideban, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Analysis and modeling of quantum capacitance on graphene single electron transistor • Jul 2018
,• International Journal of Modern Physics B. | |
| 3-• Hadi Kasani, Rasoul Khoda-Bakhsh, Mohammad Taghi Ahmadi, 2018, Electrical parameters retrieval of carbon nanoparticle-based metal semiconductor metal structure by standard methods and beta-ray-induced charge • Apr 2018•
,• Radiation Effects and Defects in Solids. | |
| 4-• Ali Yousefvand, Mohammad Taghi Ahmadi, Bahar Meshginqalam, Saeid Afrang, 2018, The Analytical Modeling of the Uniaxial Strain Effect on the Carrier Statistic of Graphene Nanoribbon • Mar 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 5-B Rouzkhash, A Salehi, MT Ahmadi, 1399, γ-Graphyne-1 band structure modeling and simulation,Solid State Communications . | |
| 6-Mohamad Taghi Ahmadi*,1,2 , Banafsheh Alizadeh Arashloo1, Truong-Khang Nguyen1, 2021, Analytical Modeling of Graphene Oxide Based Memristor,AinShams Journal Engineering . | |
| 7-Milad Moutab Sahihazar, Mina Nouri, Meisam Rahmani, Hadi Kasani, 2018, Fabrication of Carbon Nanoparticle Strand under Pulsed Arc Discharge • • Jun 2018•
,Plasmonics. | |
| 8-V. Khakia, Mohammad Taghi Ahmadib,c, *, M. Hassanzadazard , Truong Khang Nguyenb,c, 2021, Silicon doping effect on the electronic behavior of graphene nanoscroll,Journal of Electronic Materials. | |
| 9-Vahideh Khademhosseini,1 Daryoosh Dideban,1, 2,z and Mohammad Taghi Ahmadi, 2020, An analytical approach for current modeling in a single electron transistor (SET) utilizing graphene nanoscroll (GNS) as the island,ECS Journal of Solid State Science and Technology. | |
| 10-MOHAMAD TAGHI AHMADI, RAMIN AHMADI, and TRUONG KHANG NGUYEN, 2020, Graphene Nanoscroll Geometry Effect on Transistor Performance,Journal of Electronic Materials. | |
| 11-Mohammad Taghi Ahmadi, Neda Mousavi, Truong Khang Nguyen, Seyed Saeid Rahimian Koloor and Michal Petru˚, 2020, Carbon Nanoparticle-Based Electro-Thermal Building Block,Applied Sciences. | |
| 12-Mohammad Taghi Ahmadi, Ahmad Razmdideh , Seyed Saeid Rahimian Koloor and Michal Petrů, 2020, Carbon‐Based Band Gap Engineering in the h‐BN Analytical Modeling,Materials. | |
| 13-• Wei Hong Lim, Afiq Hamzah, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Performance analysis of one dimensional BC 2 N for nanoelectronics applications • Apr 2018•
,• Physica E Low-dimensional Systems and Nanostructures. | |
| 14-• Ramin ahmadi, Mohammad Taghi Ahmadi, Razali Ismail, 2018, Carbon Nano-particle Synthesized by Pulsed Arc Discharge Method as a Light Emitting Device • Apr 2018•
,• Journal of Electronic Materials. | |
| 15-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi , Komeil Rahmani, 2018, An Analytical Approach to Model the Optical Properties of Carbon Nanotubes for Plasmonic Devices • 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 16-Vahideh Khadem Hosseini,Mohammad Taghi Ahmadi, Saeid Afrang, 2018, Analysis and Simulation of Coulomb Blockade and Coulomb Diamonds in Fullerene Single Electron Transistors • 2018•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 17-• Soheil Mahdian Toroghi, Mohammad Taghi Ahmadi, Mir Maqsood Golzan, Rahil Mahdian, 2018, Hardness Study of Carbon Nanotube and Silicon Transistors Under the High Energy Electron Beam Radiation Effect
,• Journal of Nanoelectronics and Optoelectronics. | |
| 18-• Banafsheh Alizadeh Arashloo, Mohammad Taghi Ahmadi, 2018, 10. Set Characteristics of Bipolar Graphene Oxide Based Memristor • 2018• ,• Journal of Nanoelectronics and Optoelectronics. | |
| 19-Banafsheh Alizadeh Arashloo,Mohammad Taghi Ahmadi, Saeed Afrang, 2017, 12. The Band Energy Engineering on High Epoxy (or Hydroxyl) Content Graphene Oxide • Dec 2017
,Surface Review and Letters . | |
| 20-• Ali H Pourasl , Mohammad Taghi Ahmadi, Razali Ismail,Niayesh Gharaei, 2017, 13. Analytical modelling and simulation of gas adsorption effects on graphene nanoribbon electrical properties • Dec 2017•
,• Molecular Simulation. | |
| 21-• Sayed Norollah Hedayat, Mohammad Taghi Ahmadi, Hassan Sedghi, Shahram Moradi, 2017, 15. Quantum Transport Mode in Graphene Nanoribbon Based Transistor • Sep 2017•
,• Journal of Nanoelectronics and Optoelectronics. | |
| 22-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi, Komeil Rahmani, 2017, 14. Analytical prediction of carbon nanoscroll-based electrochemical glucose biosensor performance • Sep 2017•
,• International Journal of Environmental Analytical Chemistry. | |
| 23-• Ali Yousefvand, Mohammad Taghi Ahmadi,Bahar Meshginqalam, 2017, 17. Analytical Modeling of Acoustic Phonon-Limited Mobility in Strained Graphene Nanoribbons • Jul 2017•
,• Journal of Electronic Materials. | |
| 24-Wei Hong Lim, Afiq Hamzah, Mohammad Taghi Ahmadi, Razali Ismail, 2017, 16. Band Gap Engineering of BC 2 N for Nanoelectronic Applications • Sep 2017•
,• Superlattices and Microstructure. | |
| 25-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi, Komeil Rahmani, 2017, 18. Investigating the Mobility of Trilayer Graphene Nanoribbon in Nanoscale FETs • Jun 2017•
,• Journal of Electronic Materials. | |
| 26-• Ali H Pourasl, Mohammad Taghi Ahmadi, Razali Ismail, Niayesh Gharaei, 2017, 19. Gas adsorption effect on the graphene nanoribbon band structure and quantum capacitance • • Jun 2017•
,Adsorption. | |
| 27-Amir Fathi • M. T. Ahmadi • Razali Ismail , 2016, 29. Carrier velocity effect on carbon nanotube Schottky contact ,Aug 2016 • Semiconductors 2016. | |
| 28-• Meisam Rahmani, Hassan Ghafoori Fard, Mohammad Taghi Ahmadi ,Komeil Rahmani, 2017, Analytical investigation on the electrooptical properties of graphene nanoscrolls for SPR-based sensor application • Jun 2017•
,• Journal of Computational Electronics. | |
| 29-Bahar Meshginqalam • Hamid Toloue • Mohammad Taghi Ahmadi • [...] • Razali Ismail
, 2016, 31. Graphene embedded surface plasmon resonance based sensor prediction model
,Jun 2016 • Optical and Quantum Electronics 2016. | |
| 30-• Ali H Pourasl, Mohammad Taghi Ahmadi, Razali Ismail, 2017, 21. Carrier Relaxation Time Modelling of Monolayer Black Phosphorene • Jun 2017•
,• Micro & Nano Letters. | |
| 31-B Meshginqalam, HT AT, MT Ahmadi, A Sabatyan, 2016, 34. Engineer-able optical properties of trilayer graphene nanoribbon ,Physica Scripta 91 (3), 035802 2016. | |
| 32-• S. N Hedayat, Mohammad Taghi Ahmadi, Hadi Sedghi, Hadi Goudarzi, 2017, 22. Geometry Effect on Graphene Nano Scroll Based Double Barrier Transistor • May 2017•
,• Journal of Computational and Theoretical Nanoscience. | |
| 33-AT Hamid Toloue, A Centeno, MT Ahmadi, 2016, 35. An Improved Sensitivity SPR Biosensor Using Multilayer Graphene ,Advanced Materials Research 1133, 103-107 2016. | |
| 34-• Vahideh Khadem Hosseini, Mohammad Taghi Ahmadi, Saeid Afrang, Razali Ismail, 2017, Current Analysis and Modeling of Fullerene Single-Electron Transistor at Room Temperature • Feb 2017•
,• Journal of Electronic Materials. | |
| 35-H Kasani, MT Ahmadi, R Khoda-Bakhsh, D RezaeiOchbelagh, R Ismail , 2016, Influences of Sr-90 beta-ray irradiation on electrical characteristics of carbon nanoparticles
,Journal of Applied Physics 119 (12), 124510. | |
| 36-• Hadi Kasani, R. Khodabakhsh, Mohammad Taghi Ahmadi, Razali Ismail, 2017, Electrical Properties of MWCNT/HDPE Composite-Based MSM Structure Under Neutron Irradiation • Feb 2017•
,• Journal of Electronic Materials. | |
| 37-HediyehKarimi, Rasoul Rahmani, Mohammad Taghi Ahmadi, Razali Ismail, , 2015, 37. Modelling effective charge density in graphene based LGFET DNA sensor, ,Science of Advanced Materials 2015. | |
| 38-• Ali H Pourasl, Mohammad Taghi Ahmadi ,Meisam Rahmani, Razali Ismail, 2017, Graphene Based Biosensor Model for Escherichia Coli Bacteria Detection • ,Journal of Nanoscience and Nanotechnology • Jan 2017• . | |
| 39-N A Izuani Che Rosid • M T Ahmadi • Razali Ismail , 2016, Strain effect on graphene nanoribbon carrier statistic in the presence of non-parabolic band structure
,Sep 2016 • Chinese Physics B 2016. | |
| 40-Bahar Meshginqalam • Mohammad Taghi Ahmadi • Razali Ismail • Arash Sabatyan , 2016, 2Graphene/Graphene Oxide-Based Ultrasensitive Surface Plasmon Resonance Biosensor
,Dec 2016 • Plasmonics 2016. | |
| 41-EW Lim, MT Ahmadi, R Ismail, 2016, 32. Modeling and simulation of graphene-oxide-based RRAM ,Journal of Computational Electronics 15 (2), 602-610 2016. | |
| 42-Bahar Meshginqalam • Mohammad Taghi Ahmadi • Arash Sabatyan • Razali Ismail , 2016, The Effect of Molecular Adsorption on Electro-Optical Properties of Graphene-Based Sensors
,Sep 2016 • Plasmonics 2016. | |
| 43-VK Hosseini, AK Jameil, MT Ahmadi, 2015, ANALYSIS OF TEMPERATURE LIMITATION OF GRAPHENE SINGLE ELECTRON TRANSISTOR ,ANALYSIS, 568-573. | |
| 44-M. Hassanzadazar • M. T. Ahmadi • Razali Ismail • Hadi Goudarzi , 2016, 30. Electrical Property Analytical Prediction on Archimedes Chiral Carbon Nanoscrolls
,• Jun 2016 • Journal of Electronic Materials 2016. | |
| 45-WK Kiat, R Ismail, MT Ahmadi , 2015, Contact Effect on the Current–Voltage Characteristic of Graphene Nanoribbon Based Schottky Diode
,Journal of Computational and Theoretical Nanoscience 12 (3), 478-483. | |
| 46-MJ Kiani, MAA Razak, FK Che Harun, MT Ahmadi, M Rahmani, 2015, SWCNT-Based Biosensor Modelling for pH Detection ,Journal of Nanomaterials 2015. | |
| 47-MJ Kiani, MAA Razak, FK Che Harun, MT Ahmadi, M Rahmani, 2015, SWCNT-Based Biosensor Modelling for pH Detection ,Journal of Nanomaterials 2015. | |
| 48-WK Kiat, R Ismail, MT Ahmadi , 2015, Contact Effect on the Current–Voltage Characteristic of Graphene Nanoribbon Based Schottky Diode
,Journal of Computational and Theoretical Nanoscience 12 (3), 478-483 2015. | |
| 49-A Hamzah, M Taghi Ahmadi, R Ismail , 2015, Analytical Study of Electronic Structure in Archimedean Type-Spiral Zig-Zag Graphene Nanoscroll 11 (1), 87-94
,Current Nanoscience. | |
| 50-محمد تقی احمدی, 1394, FABRICATION OF CARBON NANOPARTICLE / POLYMER NANOCOMPOSITE BASED THERMOMETER H.,Diyala Journal of Engineering Sciences. | |
| 51-محمد تقی احمدی, 1394, INVESTIGATION ON OPTICAL AND ELECTRICAL PROPERTIES OF BILAYER GRAPHENE,Diyala Journal of Engineering Sciences. | |
| 52-محمد تقی احمدی, 1394, Engineer-able optical properties of trilayer graphene nanoribbon,Physica Scripta. | |
| 53-محمد تقی احمدی, 1394, Modelling Effective Charge Density in Graphene-Based DNA Sensor,Science of Advanced Materials. | |
| 54-محمد تقی احمدی, 1394, QUANTUM CURRENT MODELLING ON GRAPHENE NANOSCROLLS,Diyala Journal of Engineering Sciences. | |
| 55-محمد تقی احمدی, 1394, TEMPERATURE DETECTION BY CARBON NANO PARTICLE BASED SENSOR,Diyala Journal of Engineering Sciences. | |
| 56-محمد تقی احمدی, 1394, ANALYSIS OF TEMPERATURE LIMITATION OF GRAPHENE SINGLE ELECTRON TRANSISTOR,Diyala Journal of Engineering Science. | |
| 57-Mohammad Javad Kiani1,2, Ahmadi MT1,4 , Elnaz Akbari3, Meisam Rahmani1, Hediyeh Karimi3 and Che Harun FK1, 1393, Analytical Modeling of Bilayer Graphene Based Biosensor,Biosensors and Bioelectronics. | |
| 58-محمد تقی احمدی, 1393, Analytical Prediction of Liquid-Gated Graphene Nanoscroll Biosensor Performance,RSC advances. | |
| 59-محمد تقی احمدی, 1393, Bilayer Graphene Application on NO2 Sensor Modelling,Nanomaterials. | |
| 60-محمد تقی احمدی, 1393, Conductance modulation of charged lipid bilayer,nanoscale research letters. | |
| 61-محمد تقی احمدی, 1393, Gas Concentration Effects on the Sensing Properties of Bilayer Graphene,Plasmonics. | |
| 62-Meisam Rahmani,1 Razali Ismail,1 Mohammad Taghi Ahmadi,1,2 Mohammad Javad Kiani,3, 1393, The Effect of Bilayer Graphene Nanoribbon Geometry on,Journal of Nanomaterials. | |
| 63-محمد تقی احمدی, 1393, Carrier Statistics and Quantum Capacitance Models of,nanomaterials. | |
| 64-محمد تقی احمدی, 1393, Trilayer Graphene Nanoribbon Field Effect Transistor,Telekomnika. | |
| 65-محمد تقی احمدی, 1392, Analytical Calculation of Sensing Parameters on Carbon Nanotube Based Gas Sensors,Sensors. | |
| 66-محمد تقی احمدی, 1392, Analytical modeling of glucose biosensors based on carbon,nanoscale research letters. | |
| 67-محمد تقی احمدی, 1392, Analytical Modeling of Monolayer Graphene-Based NO2 Sensor,sensor Letters. | |
| 68-محمد تقی احمدی, 1392, kiani-Nanoscale-2013-Analytical modelling of monolayer graphene-based,Nanoscale research letters. | |
| 69-محمد تقی احمدی, 1392, Layer Effect on Graphene Nanoribbon,Computational and Theoretical Nanoscience. | |
| 70-محمد تقی احمدی, 1392, meisam-ac-nanoscaleresearchletters-Analytical modeling of trilayer graphene nanoribbon Schottky-barrier FET for,nanoscale research letters. | |
| 71-محمد تقی احمدی, 1392, Semi Analytical Modeling of Quantum Capacitance of,Computational and Theoretical Nanoscience. | |
| 72-محمد تقی احمدی, 1392, Development of solution-gated graphene,nanoscale research letters. | |
| 73-محمد تقی احمدی, 1392, Gas Concentration Effect on Channel Capacitance in,Computational and Theoretical Nanoscience. | |
| 74-محمد تقی احمدی, 1392, Geometry Effect on Graphene Nanoscrolls Band Gap,Computational and Theoretical Nanoscience. | |
| 75-محمد تقی احمدی, 1392, Ionization coefficient of monolayer graphene nanoribbon),Microelectronics Relailbility. | |
| 76-محمد تقی احمدی, 1392, Performance of Bilayer Graphene Nanoribbon Schottky,Computational and Theoretical Nanoscience. | |
| 77-محمد تقی احمدی, 1392, Structural and Properties of Graphene Nanobelts,Computational and Theoretical Nanoscience. | |
| 78-محمد تقی احمدی, 1392, Quantum Capacitance Effect on Bilayer Graphene,Journal of Nanoengineering and Nanomanufacturing. | |
| 79-محمد تقی احمدی, 1392, QUANTUM CAPACITANCE EFFECT ON ZIG-ZAG GRAPHENE,Modern Physics Letters B. | |
| 80-محمد تقی احمدی, 1391, Capacitance Variation of Electrolyte-Gated Bilayer,Journal of Nanomaterials. | |
| 81-محمد تقی احمدی, 1391, Schottky Current in Carbon Nanotube-Metal Contact,Computational and Theoretical Nanoscience. | |
| 82-محمد تقی احمدی, 1391, The Effect of Applied Voltage on the Carrier Effective,Computational and Theoretical Nanoscience. | |
| 83-محمد تقی احمدی, 1391, Carrier Motion Effect on Bilayer Graphene,Computational and Theoretical Nanoscience. | |
| 84-محمد تقی احمدی, 1391, Theory of Ionization Mechanism in,Computational and Theoretical Nanoscience. | |
| 85-محمد تقی احمدی, 1391, Degeneracy Effect on Carrier transport in Bilayer Graphene,International Journal of Nano Devices, Sensors and Systems (IJ-Nano). | |
| 86-محمد تقی احمدی, 1391, Optimization of DNA Sensor Model Based Nanostructured,Journal of Nanomaterials. | |
| 87-محمد تقی احمدی, 1391, The impact of germanium in strained Si/relaxed Si1xGex on carrier performance in non-degenerate and degenerate regimes,Semiconductors. | |
| 88-محمد تقی احمدی, 1391, The Sub-Band Effect on the Graphene,Nanoelectronics and Optoelectronics. | |
| 89-محمد تقی احمدی, 1390, Analitical modeling of high performance t,microelectronics. | |
| 90-محمد تقی احمدی, 1390, Design and Analysis of a New Carbone Nanotube Full Adder Cell,Journal of nano materials. | |
| 91-محمد تقی احمدی, 1390, Graphene Nanoribbon Conductance Model in Parabolic Band Structure,nanomaterials. | |
| 92-محمد تقی احمدی, 1390, Modelling of Graphene Nanoribbon Fermi Energy,Nanomaterials. | |
| 93-محمد تقی احمدی, 1390, A model for length of saturation velovcity,Microelectronics. | |
| 94-محمد تقی احمدی, 1390, Low-Dimensional Carrier Statistics in Nanostructures,current Nano science. | |
| 95-محمد تقی احمدی, 1390, LOW-FIELD MOBILITY MODEL ON PARABOLIC BAND ENERGY OF GRAPHENE,Modern Physics Letters B. | |
| 96-محمد تقی احمدی, 1390, Monolayer Graphene Nanoribbon,Science of Advanced Materials. | |
| 97-محمد تقی احمدی, 1390, Single Wall Carbon Nanotube Field,Computational and Theoretical Nanoscience. | |
| 98-محمد تقی احمدی, 1389, Analysis and simulation of carriers statistic for semiconducting singl,Materials Research Innovations. | |
| 99-محمد تقی احمدی, 1389, Analytical Study of Drift Velocity in Low Dimensional Devices,journal fundamental science. | |
| 100-محمد تقی احمدی, 1389, P-Type Silicon Nanowire Transistor Modeling,International Journal of Recent Trends in Engineering. | |
| 101-محمد تقی احمدی, 1389, Band structure effect on Carbon Nanotube Fermi Energy,International Review of PHYSICS. | |
| 102-محمد تقی احمدی, 1389, Current–voltage characteristics of a silicon nanowire transistor,Microelectroncs. | |
| 103-محمد تقی احمدی, 1389, The Ultimate Ballistic Drift Velocity in Carbon Nanotubes,nanomaterials. | |
| 104-محمد تقی احمدی, 1386, semiolation of CNT growth,Chemical physics letters. |
| | | مقالات و خلاصه مقالات ارائه شده در همايش ها (10) |
| |
| 1- 1393, Electrode Gap effect on Carbon Nanotube,ISC2014, KL,Malaysia. | |
| 2- 1393, Electrode geometry effect on carbon nanotube based sensor,ISC2014, KL,Malaysia. | |
| 3- 1394, Fabrication of Carbon nanoparticle/polymer based temperature sensor,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 4- 1394, Graphene Based Surface Plasmon Resonance Bio-sensor Modeling,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 5- 1394, Quantum Current Modeling on Graphene Nanoribbons,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 6- 1394, Simulating Hall Voltage within Graphene Layers for High Efficiency Dye Sensitized Solar Cells,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 7- 1393, Simulation Study on Graphene Nanoribbon based Feil Effect Transistors,ISC2014, KL,Malaysia. | |
| 8- 1394, Tunable Refractive Index of Trilayer Graphene Nanoribbon Modeling,Annual RIAPA Meeting on Low Dimensional Systems, 25-26 May2015, Tabriz,Iran. | |
| 9- 1394، بررسی محدودیت دمایی ترانسیستورهای تک الکترونی با استفاده از گرافن،Annual RIAPA Meeting on Low Dimensional Systems، 25-26 May2015، Tabriz،Iran. | |
| 10- 1394، بررسی ه?خصی جریان-ولتاژ در Nanoscale CMOS بر پایه گرافن،Annual RIAPA Meeting on Low Dimensional Systems، 25-26 May2015، Tabriz،Iran. |
| | | کتاب های چاپ شده (3) |
| | | | پروژه های تحقیقاتی (1) |
| | | | پایان نامه ها (8) |
| |
| 1-Mir Ahmad Hosini، 1393، Graphene based Schottky transistor modeling and fabrication، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 2-Sadegh Ebrahimian، 1393، Design and fabrication of CNT based gas sensor، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 3-Mohsen Karimi، 1393، optical property investigation on CNT Non liner، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 4-Sepide Lilasi، 1393، Nanoscale Graphene based Schottky transistor Simulation، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 5-Tohid Shokati، 1393، Gas sensor fabrication based on CNT application، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 6-Solmaz mohammadpor، 1393، Radioactive radiation effect on Schottky transistors، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 7-mariam heidarzade، 1393، Growth modeling for carbon nanotube by arc discharge، پایان نامه كارشناسي ارشد، استاد راهنما. | |
| 8-mariam sheikhi، 1392، Carbon nanotube growth and simulation، پایان نامه كارشناسي ارشد، استاد راهنما. |
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