| Synthesis and thermoluminescence of boron-doped germanium nanowires | Radiation Physics and Chemistry | - M.Zahedifar -F. Hosseinmardi- L. Eshraghi- B Ganjipour |
| Thermoluminescence kinetics analysis of α-Al2O3:C at different dose levels and populations of trapping states and a model for its dose response | Radiation Measurements | M. Zahedifar- L. Eshraghi- E. Sadeghi |
| Effects of silicon nanowires length on solar cells photovoltaic properties | Applied Physics A | M. Farangi - M. Zahedifar - M.R. Mozdianfard -M.H. Pakzamir |
| Synthesis and dosimetric properties of the novel thermoluminescent CaF2:Tm nanoparticles | Radiation Physics and Chemistry | M. Zahedifar-E. Sadeghi |
| THERMOLUMINESCECE PROPERTIES OF BEO: MG NANOPARTICLES PRODUCED BY SOL-GEL METHOD | JOURNAL OF NANOSTRUCTURES | M. Zahedifar-M. Mehrabi- M. Modarres- S. Harooni |
| Preparation and Characterization of Downconversion Luminescent LaVO4: Tm3+ , Yb3+ and Tm3+ /Yb3+ Nanosheets | Journal of Nanostructures | M. Zahedifar- Z. Chamanzadeh |
| Thermoluminescence characteristics of the novel CaF2:Dy nanoparticles prepared by using the hydrothermal method | Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms | M. Zahedifar- E. Sadeghi- S. Harooni |
| Synthesis and thermoluminescence characteristics of Mn doped CaF2 nanoparticles | Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms | M. Zahedifar- E. Sadeghi- Z. Mohebbi |
| Synthesis of LaVO4: Dy3+ luminescent nanostructure and optimization of its performance as down-converter in dye-sensitized solar cells | Journal of Luminescence | M. Zahedifar- Z. Chamanzadeh-S.M. Hosseinpoor Mashkani |
| Synthesis, characteristics and thermoluminescent dosimetry features of γ-irradiated Ce doped CaF2 nanophosphor | Applied Radiation and Isotopes | M. Zahedifar- E. Sadeghi-M.R. Mozdianfard- E. Habibi |
| Optimization of Zn(O,S)/(Zn,Mg)O buffer layer in Cu(In,Ga)Se2 based photovoltaic cells | Journal of Materials Science: Materials in Electronics | 8- M. Saadat- M. Moradi- M. Zahedifar |
| Thermoluminescence dosimetry features of DY and Cu doped SrF2 nanoparticles under gamma irradiation | Applied Radiation and Isotopes | M. Zahedifar-E. Sadeghi- M. Kashefi Biroon- S. Harooni- F. Almasifard |
| Thermoluminescence and photoluminescence properties of NaCl:Mn, NaCL:Cu nano-particles produced using co-precipitation and sono-chemistry methods | Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment | M.Mehrabi-M.Zahedifar-Z.Saeidi-.Ramazani.Moghaddam.Arani-E.Sadeghi-S.Harooni |
| Synthesis and characterization of GdVO4:Dy3+ nanosheets as down converter: application in dye-sensitized solar cells | Journal of Materials Science: Materials in Electronics | M. Zahedifar-Z. Chamanzadeh-M. Madani-M. Moradi-N. Sharifpour |
| Afterglow properties of CaF2:Tm nanoparticles and its potential application in photodynamic therapy | Journal of Luminescence | M. Zahedifar- E. Sadeghi- M.M. Shanei- A. Sazgarnia- M. Mehrabi |
| Thermoluminescence kinetic analysis and dosimetry features of MgSO4:Dy and MgSO4:Cu nano-rods | Radiation Physics and Chemistry | M.Zahedifarab-F.Almasifarda-E.Sadeghiab-M. KashefiBiroona-A.Ramazani. Moghaddam.Arania |
| CIGS absorber layer with double grading Ga profile for highly efficient solar cells | Superlattices and Microstructures | M.Saadata-M.Moradia-M.Zahedifar |
| Chebyshev finite difference method for a nonlinear system of second-order boundary value problems | Applied Mathematics and Computation | J. Askari, A. Soadatmandi |
| Direct cyber-power interdependencies-based reliability evaluation of smart grids including wind/solar/diesel distributed generations and plug-in hybrid electrical vehicles | International Journal of Electrical Power & Energy Systems | HamedHashemi-DezakiaHosseinAskarian-AbyanehbAmirhasanShams-AnsaricMohammadDehghaniSanijdMaryam A.Hejazia |
| Impacts of direct cyber-power interdependencies on smart grid reliability under various penetration levels of microturbine/wind/solar distributed generations | IET Generation, Transmission & Distribution | Hamed Hashemi-Dezaki-Hossein Askarian-Abyaneh-Homayoun Haeri-Khiavi |