Publication

 
[1]        Z. Rezanejad Gatabi, R. Mohammadpour, J. Rezanejad Gatabi, M. Mirhoseini, and P. Sasanpour, "A novel composite gold/gold

[1]         M. Vafaiee, R. Mohammadpour, M. Vossoughi, E. Asadian, M. Janahmadi, and P. Sasanpour, "Carbon Nanotube Modified Microelectrode Array for Neural Interface," Frontiers in Bioengineering and Biotechnology, vol. 8, 2021.

[2]         Z. Boroun, M. Ghorbani, R. Mohammadpour, and A. Moosavi, "Importance of N-P-N Junction in H2S Sensing Process of SnO2-CuO Heterostructures: A Theoretical Macroscopic Approach," IEEE Sensors Journal, vol. 21, pp. 7123-7129, 2021.

[3]         S. Asgary, H. M. Moghaddam, A. Bahari, and R. Mohammadpour, "Role of BCP layer on nonlinear properties of perovskite solar cell," Solar Energy, vol. 213, pp. 383-391, 2021.

[4]         Z. Rezanejad Gatabi, R. Mohammadpour, J. Rezanejad Gatabi, M. Mirhoseini, and P. Sasanpour, "A novel composite gold/gold nanoparticles/carbon nanotube electrode for frequency-stable micro-electrical impedance tomography," Journal of Materials Science: Materials in Electronics, vol. 31, pp. 10803-10810, 2020.

[5]         Z. Hosseindokht, R. Mohammadpour, E. Asadian, M. Paryavi, H. Rafii-Tabar, and P. Sasanpour, "Low cost flexible pressure sensor using laser scribed GO/RGO periodic structure for electronic skin applications," Superlattices and Microstructures, vol. 140, 2020.

[6]         Z. R. Gatabi, R. Mohammadpour, J. R. Gatabi, M. Mirhoseini, M. Ahmadi, and P. Sasanpour, "Sandblasting improves the performance of electrodes of miniature electrical impedance tomography via double layer capacitance," Heliyon, vol. 6, 2020.

[7]         E. Farahani and R. Mohammadpour, "Fabrication of flexible self-powered humidity sensor based on super-hydrophilic titanium oxide nanotube arrays," Scientific Reports, vol. 10, 2020.

[8]         F. Ejehi, R. Mohammadpour, E. Asadian, P. Sasanpour, S. Fardindoost, and O. Akhavan, "Graphene Oxide Papers in Nanogenerators for Self-Powered Humidity Sensing by Finger Tapping," Scientific Reports, vol. 10, 2020.

[9]         H. Ahmadvand, A. Iraji zad, R. Mohammadpour, S. H. Hosseini-Shokouh, and E. Asadian, "Room temperature and high response ethanol sensor based on two dimensional hybrid nanostructures of WS2/GONRs," Scientific Reports, vol. 10, 2020.

[10]       M. Vafaiee, M. Vossoughi, R. Mohammadpour, and P. Sasanpour, "Gold-Plated Electrode with High Scratch Strength for Electrophysiological Recordings," Scientific Reports, vol. 9, 2019.

[11]       M. Vafaiee, R. Mohammadpour, M. Vossoughi, and P. Sasanpour, "Size and Geometry of Multielectrode Arrays Determine the Efficiency of Electrical Interaction with Neurons Through Double-Layer Capacitance," IEEE Sensors Journal, vol. 19, pp. 2829-2836, 2019.

[12]       N. S. Peighambardoust, S. K. Asl, R. Mohammadpour, and S. K. Asl, "Improved efficiency in front-side illuminated dye sensitized solar cells based on free-standing one-dimensional TiO2 nanotube array electrodes," Solar Energy, vol. 184, pp. 115-126, 2019.

[13]       M. Haghighi, F. Tajabadi, S. M. Mahdavi, R. Mohammadpour, and N. Taghavinia, "Surfactant-free stable SnS2 nanoparticles dispersion for deposition of device-quality films," Thin Solid Films, vol. 669, pp. 269-274, 2019.

[14]       F. Ebadi, N. Taghavinia, R. Mohammadpour, A. Hagfeldt, and W. Tress, "Origin of apparent light-enhanced and negative capacitance in perovskite solar cells," Nature Communications, vol. 10, 2019.

[15]       F. Ebadi, M. Aryanpour, R. Mohammadpour, and N. Taghavinia, "Coupled Ionic-Electronic Equivalent Circuit to Describe Asymmetric Rise and Decay of Photovoltage Profile in Perovskite Solar Cells," Scientific Reports, vol. 9, 2019.

[16]       R. Teimouri and R. Mohammadpour, "Potential application of CuSbS2 as the hole transport material in perovskite solar cell: A simulation study," Superlattices and Microstructures, vol. 118, pp. 116-122, 2018.

[17]       L. Shooshtari, R. Mohammadpour, and A. Irajizad, "Communication-scanning kelvin probe study of electrodeposited nanostructured Cu2O/perovskite interfaces," ECS Journal of Solid State Science and Technology, vol. 7, pp. P60-P62, 2018.

[18]       L. Shooshtari, A. Iraji zad, and R. Mohammadpour, "Reproducible electrochemical analysis of nanostructured Cu2O using a non-aqueous 3-methoxypropionitrile-based electrolyte," Electrochemistry Communications, vol. 86, pp. 1-5, 2018.

[19]       N. S. Peighambardoust, S. Khameneh Asl, R. Mohammadpour, and S. K. Asl, "Band-gap narrowing and electrochemical properties in N-doped and reduced anodic TiO2 nanotube arrays," Electrochimica Acta, vol. 270, pp. 245-255, 2018.

[20]       S. Moosakhani, A. A. Sabbagh Alvani, R. Mohammadpour, J. Sainio, Y. Ge, and S. P. Hannula, "Effect of sulfonating agent and ligand chemistry on structural and optical properties of CuSbS2 particles prepared by heat-up method," CrystEngComm, vol. 20, pp. 1527-1535, 2018.

[21]       S. Moosakhani, A. A. Sabbagh Alvani, R. Mohammadpour, P. M. Hannula, Y. Ge, and S. P. Hannula, "Platelet CuSbS2 particles with a suitable conduction band position for solar cell applications," Materials Letters, vol. 215, pp. 157-160, 2018.

[22]       S. Moosakhani, A. A. Sabbagh Alvani, R. Mohammadpour, Y. Ge, and S. P. Hannula, "Solution synthesis of CuSbS2 nanocrystals: A new approach to control shape and size," Journal of Alloys and Compounds, vol. 736, pp. 190-201, 2018.

[23]       R. Mohammadpour, "Flexible Triboelectric Nanogenerator Based on High Surface Area TiO2 Nanotube Arrays," Advanced Engineering Materials, vol. 20, 2018.

[24]       Z. Hosseindokht, M. Paryavi, E. Asadian, R. Mohammadpour, H. Rafii-Tabar, and P. Sasanpour, "Pressure sensor based on patterned laser scribed reduced graphene oxide; experiment & modeling," in Proceedings of the 2017 International Conference on Orange Technologies, ICOT 2017, 2018, pp. 15-17.

[25]       M. Abedini, M. Ahmadi, R. Mohammadpour, and P. Sasanpour, "Efficient Geometry of Surface Plasmon Resonance Based Fiber Optic Sensor," in 2018 IEEE 38th International Conference on Electronics and Nanotechnology, ELNANO 2018 - Proceedings, 2018, pp. 351-354.

[26]       A. Nikfarjam, R. Mohammadpour, A. Kasaeian, and Z. Zebhi, "Improving transparency in dye-sensitized nanostructured solar cells by optimizing nano-porous titanium dioxide photo-electrode," Journal of Materials Science: Materials in Electronics, vol. 28, pp. 7811-7818, 2017.

[27]       R. Mohammadpour, "Influence of energy band alignment in mixed crystalline TiO2 nanotube arrays: Good for photocatalysis, bad for electron transfer," Journal of Physics D: Applied Physics, vol. 50, 2017.

[28]       A. Karimizefreh, F. A. Mahyari, M. VaezJalali, R. Mohammadpour, and P. Sasanpour, "Impedimetic biosensor for the DNA of the human papilloma virus based on the use of gold nanosheets," Microchimica Acta, vol. 184, pp. 1729-1737, 2017.

[29]       Z. Boroun, M. Ghorbani, R. Mohammadpour, and A. Moosavi, "Origin of working temperature in H2S sensing process of SnO2-CuO thin bilayer: A theoretical macroscopic approach," Sensors and Actuators, B: Chemical, vol. 252, pp. 944-950, 2017.

[30]       L. Shooshtari, R. Mohammadpour, and A. I. Zad, "Enhanced photoelectrochemical processes by interface engineering, using Cu2O nanorods," Materials Letters, vol. 163, pp. 81-84, 2016.

[31]       H. G. Shiraz, F. R. Astaraei, and R. Mohammadpour, "TiO2/nanoporous silicon hybrid contact for heterojunction crystalline solar cell," RSC Advances, vol. 6, pp. 55046-55053, 2016.

[32]       P. Sasanpour and R. Mohammadpour, "Trap density measurement in three-dimensional nanostructured photoelectrode of titanium dioxide with various morphologies," Applied Physics A: Materials Science and Processing, vol. 122, 2016.

[33]       R. Mohammadpour, S. Janfaza, and M. Zeinoddini, "Potential of light-harvesting of bacteriorhodopsin co-sensitized with green fluorescence protein: A new insight into bioenergy application," Biomass and Bioenergy, vol. 87, pp. 35-38, 2016.

[34]       N. Mohammadian, A. Moshaii, A. Alizadeh, S. Gharibzadeh, and R. Mohammadpour, "Influence of Perovskite Morphology on Slow and Fast Charge Transport and Hysteresis in the Perovskite Solar Cells," Journal of Physical Chemistry Letters, vol. 7, pp. 4614-4621, 2016.

[35]       N. Mohammadian, A. H. Alizadeh, A. Moshaii, S. Gharibzadeh, A. Alizadeh, R. Mohammadpour, et al., "A two-step spin-spray deposition processing route for production of halide perovskite solar cell," Thin Solid Films, vol. 616, pp. 754-759, 2016.

[36]       S. Gharibzadeh, B. A. Nejand, A. Moshaii, N. Mohammadian, A. H. Alizadeh, R. Mohammadpour, et al., "Two-step physical deposition of a compact cui hole-transport layer and the formation of an interfacial species in perovskite solar cells," ChemSusChem, vol. 9, pp. 1929-1937, 2016.

[37]       Z. Boroun, M. Ghorbani, A. Moosavi, and R. Mohammadpour, "New Insight into H2S Sensing Mechanism of Continuous SnO2-CuO Bilayer Thin Film: A Theoretical Macroscopic Approach," Journal of Physical Chemistry C, vol. 120, pp. 7678-7684, 2016.

[38]       S. Shogh, R. Mohammadpour, A. I. Zad, and N. Taghavinia, "Improved photovoltaic performance of nanostructured solar cells by neodymium-doped TiO2 photoelectrode," Materials Letters, vol. 159, pp. 273-275, 2015.

[39]       S. Shogh, R. Mohammadpour, A. Iraji zad, and N. Taghavinia, "Nitrogen-doped submicron-size TiO2 particles as bifunctional light scatterers in dye-sensitized solar cells," Applied Physics A: Materials Science and Processing, vol. 119, pp. 1283-1290, 2015.

[40]       S. Shogh, R. Mohammadpour, A. Iraji zad, and N. Taghavinia, "A new strategy on utilizing nitrogen doped TiO2 in nanostructured solar cells: Embedded multifunctional N-TiO2 scattering particles in mesoporous photoanode," Materials Research Bulletin, vol. 72, pp. 64-69, 2015.

[41]       P. Rostami, A. Nemati, M. Malekshahi Byranvand, R. Mohammadpour, and H. Faridi, "One-pot synthesis of ZnO nanoparticles and submicron-aggregates for dye-sensitized solar cells," Materials Letters, vol. 139, pp. 433-436, 2015.

[42]       R. Mohammadpour and S. Janfaza, "Efficient Nanostructured Biophotovoltaic Cell Based on Bacteriorhodopsin as Biophotosensitizer," ACS Sustainable Chemistry and Engineering, vol. 3, pp. 809-813, 2015.

[43]       A. Boroomandnia, A. B. Kasaeian, A. Nikfarjam, A. Akbarzadeh, and R. Mohammadpour, "Effect of crystallinity and morphology of TiO2 nano-structures on TiO2:P3HT hybrid photovoltaic solar cells," Applied Solar Energy (English translation of Geliotekhnika), vol. 51, pp. 34-40, 2015.

[44]       P. Sasanpour, R. Mohammadpour, and K. Amiri, "Neural implant stimulation based on TiO2 nanostructured arrays; A multiphysics modeling verification," in IECBES 2014, Conference Proceedings - 2014 IEEE Conference on Biomedical Engineering and Sciences: "Miri, Where Engineering in Medicine and Biology and Humanity Meet", 2014, pp. 677-680.

[45]       P. Sasanpour and R. Mohammadpour, "Theoretical calculation of scattering efficiency of isotropic and anisotropic scattering particles employed in nanostructured solar cells," Journal of Optics (United Kingdom), vol. 16, 2014.

[46]       A. Nikfarjam, R. Mohammadpour, and A. Iraji Zad, "Fabrication of gas ionization sensor based on titanium oxide nanotube arrays," Applied Physics A: Materials Science and Processing, vol. 115, pp. 1387-1393, 2014.

[47]       R. Mohammadpour, S. Janfaza, and F. Abbaspour-Aghdam, "Light harvesting and photocurrent generation by nanostructured photoelectrodes sensitized with a photosynthetic pigment: A new application for microalgae," Bioresource Technology, vol. 163, pp. 1-5, 2014.

[48]       R. Mohammadpour, H. Ahmadvand, and A. Iraji Zad, "A novel field ionization gas sensor based on self-organized CuO nanowire arrays," Sensors and Actuators, A: Physical, vol. 216, pp. 202-206, 2014.

[49]       A. Karimizefreh, P. Sasanpour, E. Jokar, R. Mohammadpour, M. Vaezjalali, and T. Tekieh, "Human Papilloma Virus biosensor based on electrochemical impedance spectroscopy of DNA hybridization," in 2014 IEEE 34th International Scientific Conference on Electronics and Nanotechnology, ELNANO 2014 - Conference Proceedings, 2014, pp. 368-370.

[50]       N. Ghazyani, M. H. Majles Ara, F. Tajabadi, A. Dabirian, R. Mohammadpour, and N. Taghavinia, "Dielectric core-shells with enhanced scattering efficiency as back-reflectors in dye sensitized solar cells," RSC Advances, vol. 4, pp. 3621-3626, 2014.

[51]       A. Boroumandnia, A. B. Kasaeian, A. R. Nikfarjam, and R. Mohammadpour, "Effect of TiO2 nanofiber density on organic-inorganic based hybrid solar cells," International Journal of Engineering, Transactions A: Basics, vol. 27, pp. 1133-1138, 2014.

[52]       G. Sadoughi, R. Mohammadpour, A. Irajizad, N. Taghavinia, S. Dadgostar, M. Samadpour, et al., "Improved charge collection efficiency of hollow sphere/nanoparticle composite TiO 2 electrodes for solid state dye sensitized solar cells," Current Applied Physics, vol. 13, pp. 371-376, 2013.

[53]       R. Mohammadpour, A. Iraji Zad, A. Hagfeldt, and G. Boschloo, "Investigation on the dynamics of electron transport and recombination in TiO2 nanotube/nanoparticle composite electrodes for dye-sensitized solar cells," Physical Chemistry Chemical Physics, vol. 13, pp. 21487-21491, 2011.

[54]       R. Mohammadpour, A. I. Zad, A. Hagfeldt, and G. Boschloo, "Comparison of trap-state distribution and carrier transport in nanotubular and nanoparticulate TiO2 electrodes for dye-sensitized solar cells," ChemPhysChem, vol. 11, pp. 2140-2145, 2010.

[55]       R. Mohammadpour, A. Irajizad, N. Taghavinia, M. Rahman, and M. M. Ahadian, "Electrochemically Assisted Photocatalytic Oxidation of Methanol on TiO2 Nanotube Arrays," Journal of Materials Science and Technology, vol. 26, pp. 535-541, 2010.

[56]       R. Mohammadpour, M. M. Ahadian, A. I. Zad, N. Taghavinia, and A. G. Dolati, "Fabrication of self-organised highly ordered titanium oxide nanotube arrays by anodic oxidation and characterisation," International Journal of Nanomanufacturing, vol. 5, pp. 297-309, 2010.

[57]       R. Mohammadpour, A. Iraji Zad, M. M. Ahadian, N. Taghavinia, and A. Dolati, "Comparison of various anodization and annealing conditions of titanium dioxide nanotubular film on MB degradation," EPJ Applied Physics, vol. 47, 2009.

[58]       R. Sadighi-Bonabi, F. Soltanmoradi, R. Mohammadpour, M. Tavakoli, and M. Zand, "Study of the dependence of the specific output power of a copper chloride laser on the radial temperature profile of a gas plasma," Quantum Electronics, vol. 37, pp. 325-330, 2007.

[59]       R. Sadighi-Bonabi, R. Mohammadpour, M. Tavakoli, F. Soltanmoradi, and M. Zand, "CuCl-Ne laser construction and its optimization on the specific output power," in Proceedings of SPIE - The International Society for Optical Engineering, 2005, pp. 1-7.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Contacts

Room 210, 1nd Floor, Institute for Nanoscience and Nanotechnology, Khodro Building, Sharif University of Technology, Azadi Avenue, Tehran, Iran

Phone: +98-21-66164121
E-mail: mohammadpour@sharif.edu


Raheleh Mohammad Pour Personal Website @2014

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