Hi, I am Mostafa Rahimnejad, My LiveDNA is 98.12057
 
   
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Dr. Mostafa Rahimnejad
 
Highest Degree: Ph.D. in Microbial Fuel Cell from Mazandaran University, Mazandaran, Iran
 
Institute: Babol Noshirvani University of Technology, Iran
 
Area of Interest: Physical Science Engineering
  •   Chemical Engineering
  •   Biochemical Engineering
  •   Environmental Biotechnology
  •   Renewable Energy
 
URL: http://livedna.org/98.12057
 
My SELECTED Publications
1:   Aghili, F., A.A. Ghoreyshi, A. Rahimpour and M. Rahimnejad, 2015. Dynamic behavior of the adsorption, activated sludge and combined activated sludge-adsorption process for treatment of cheese whey wastewater. Desalin. Water Treat., 2015: 1-11.
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2:   Aghili, F., A.A. Ghoreyshi, A. Rahimpour and M. Rahimnejad, 2016. Enhanced treatment of pretreated sour whey by PAC adsorption/membrane process. Chem. Eng. Process. Process Intensif., 99: 80-85.
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3:   Asghari, M., J. Raoof, M. Rahimnejad and R. Ojani, 2016. A novel oxidizer-less and high performance microbial fuel cell by using DNA as a final electron acceptor in the cathodic chamber. Int. J. Hydrogen Energy, .
4:   Asghary, M., J.B. Raoof, M. Rahimnejad and R. Ojani, 2016. A novel self-powered and sensitive label-free DNA biosensor in microbial fuel cell. Biosens. Bioelectron., .
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5:   Bakeri, G. and M. Rahimnejad, 2013. Kinetics study of hydrazodicarbonamide synthesis reaction. Chem. Ind. Chem. Eng. Q., 19: 273-279.
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6:   Bakeri, G., A.F. Ismail, M. Rahimnejad and T. Matsuura, 2014. Analysis of polyetherimide/N-Methyl-2-Pyrrolidone/nonsolvent phase separation behavior. J. Polym. Res., 21: 386-387.
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7:   Bakeri, G., A.F. Ismail, M. Rahimnejad and T. Matsuura, 2014. Porous polyethersulfone hollow fiber membrane in gas-liquid contacting processes. Chem. Eng. Res. Des., 92: 1381-1390.
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8:   Bakeri, G., A.F. Ismail, M. Rahimnejad, T. Matsuura and D. Rana, 2012. The effect of bore fluid type on the structure and performance of polyetherimide hollow fiber membrane in gas-liquid contacting processes. Sep. Purif. Technol., 98: 262-269.
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9:   Birjandi, N., H. Younesi, A.A. Ghoreyshi and M. Rahimnejad, 2015. Electricity generation, ethanol fermentation and enhanced glucose degradation in a bio-electro-Fenton system driven by a microbial fuel cell. J. Chem. Technol. Biotechnol., .
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10:   Daud, W.R.W., G. Najafpour and M. Rahimnejad, 2011. Clean energy for tomorrow: towards zero emission and carbon free future: a review. Iran. J. Energy Environ., 2: 262-273.
11:   Emadian, M., M. Rahimnejad, M. Hosseini and B. Khoshandam, 2015. Investigation on up-flow anaerobic sludge fixed film (UASFF) reactor for treating low-strength bilge water of Caspian sea ship. J. Environ. Health Sci. Eng., 13: 23-28.
12:   Emadian, S.M., M. Hosseini, M. Rahimnejad, M.H. Shahavi and B. Khoshandam, 2015. Treatment of a low-strength bilge water of Caspian sea ships by HUASB technique. Ecol. Eng., 82: 272-275.
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13:   Fatemi, S., A.A. Ghoreyshi, G. Najafpour and M. Rahimnejad, 2012. Bioelectricity generation in mediator-less microbial fuel cell: Application of pure and mixed cultures. Iran. J. Energy Environ., 3: 104-108.
14:   Fatemi, S., A.A. Ghoreyshi, G. Najafpour and M. Rahimnejad, 2015. Investigation of bioelectricity production in dual chamber microbial fuel cell by mixed culture as active biocatalyst. J. Cell. Mol. Res., 4: 534-542.
15:   Ghasemi, M., G. Najafpour, M. Rahimnejad, P.A. Beigi, M. Sedighi and B. Hashemiyeh, 2009. Effect of different media on production of lactic acid from whey by lactobacillus bulgaricus. Afr. J. Biotechnol., 8: 81-84.
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16:   Ghasemi, M., M. Rahimnejad, C. Esmaeili, W.R. Daud, J. Alam and M. Alhoshan, 2013. Polysulfone composed of polyaniline nanoparticles as nanocomposite proton exchange membrane in microbial fuel cell. Am. J. Biochem. Biotechnol., 4: 19-27.
17:   Ghasemi, M., M. Rahimnejad, G.D. Najafpour, M. Sedighi, M. Asadi and B. Hashemiyeh, 2008. Investigation on batch biosorption of lead using lactobacillius bulgaricus in an aqueous phase system. Biokemistri, 20: 41-46.
18:   Ghasemi, M., W.R.W. Daud, M. Ismail, M. Rahimnejad and A.F. Ismail, et al., 2013. Effect of pre-treatment and biofouling of proton exchange membrane on microbial fuel cell performance. Int. J. Hydrogen Energy, 38: 5480-5484.
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19:   Ghasemi, M., W.R.W. Daud, M. Rahimnejad, M. Rezayi and A. Fatemi, et al., 2013. Copper-phthalocyanine and nickel nanoparticles as novel cathode catalysts in microbial fuel cells. Int. J. Hydrogen Energy, 38: 9533-9540.
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20:   Ghasemi, M., W.R.W. Daud, S.H. Hassan, S.E. Oh, M. Ismail, M. Rahimnejad and J.M. Jahim, 2013. Nano-structured carbon as electrode material in microbial fuel cells: a comprehensive review. J. Alloys Compd., 580: 245-255.
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21:   Ghasemi, M., W.R.W. Daud, S.H. Hassan, T. Jafary, M. Rahimnejad, A. Ahmad and M.H. Yazdi, 2015. Carbon nanotube/polypyrrole nanocomposite as a novel cathode catalyst and proper alternative for Pt in microbial fuel cell. Int. J. Hydrogen Energy, 41: 4872-4878.
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22:   Ghoreishi, K.B., M. Ghasemi, M. Rahimnejad, M.A. Yarmo, W.R.W. Daud, N. Asim and M. Ismail, 2014. Development and application of vanadium oxide/polyaniline composite as a novel cathode catalyst in microbial fuel cell. Int. J. Energy Res., 38: 70-77.
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23:   Hassan, S.H., S.M.G. El Rab, M. Rahimnejad, M. Ghasemi and J.H. Joo, et al., 2014. Electricity generation from rice straw using a microbial fuel cell. Int. J. Hydrogen Energy, 39: 9490-9496.
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24:   Hassaninejad Darzi S.K., M. Rahimnejad and E. Mokhtari, 2016. Ni(II) decorated nano silicoaluminophosphat molecular sieves-modified carbon paste electrode as an electrocatalysts for electrooxidation of methanol. Bull. Mater. Sci., .
25:   Hassaninejad Darzi S.K., M. Rahimnejad and M. Gholami M., 2016. Electrocatalytic oxidation of formaldehyde onto carbon paste electrode modified with nickel decorated nanoporous cobalt-nickel phosphate molecular sieve for fuel cell. Fuel Cell, 4: 94171-94183.
26:   Hassaninejad Darzi, S.K. and M. Rahimnejad, 2014. Electrocatalytic oxidation of methanol by ZSM-5 nanozeolite-modified carbon paste electrode in alkaline medium. J. Iran. Chem. Soc., 11: 1047-1056.
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27:   Hassaninejad Darzi, S.K., M. Rahimnejad and S.N. Mirzababaei, 2016. Electrocatalytic oxidation of glucose onto carbon paste electrode modified with nickel hydroxide decorated NaA nanozeolite. Microchem. J., 128: 7-17.
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28:   Hassaninejad Darzi, S.K., M. Rahimnejad, M. Mirzapour Armaki, P. Izadi and S.M. Peyghambarzadeh, 2015. Modification of carbon paste electrode by surfactant-modified ZSM-5 nanozeolite for potentiometric determination of sulfate. Desalin. Water Treat., 56: 1622-1632.
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29:   Izadi, P. and M. Rahimnejad, 2014. Simultaneous electricity generation and sulfide removal via a dual chamber microbial fuel cell. Biofuel Res. J., 1: 34-38.
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30:   Izadi, P., M. Rahimnejad and A. Ghoreyshi, 2015. Sulfide removal in anode compartment and bioelectricity production in two chambered microbial fuel cells. Can. J. Chem. Eng., 93: 2135-2140.
31:   Izadi, P., M.M. Rahimnejad and A. Ghoreyshi, 2015. Power production and wastewater treatment simultaneously by dual-chamber microbial fuel cell technique. Biotechnol. Appl. Biochem., 62: 483-488.
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32:   Jafary, T., A.A. Ghoreyshi, G.D. Najafpour, S. Fatemi and M. Rahimnejad, 2013. Investigation on performance of microbial fuel cells based on carbon sources and kinetic models. Int. J. Energy Res., 37: 1539-1549.
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33:   Jafary, T., M. Rahimnejad, A.A. Ghoreyshi, G. Najafpour, F. Hghparast and W.R.W. Daud, 2013. Assessment of bioelectricity production in microbial fuel cells through series and parallel connections. Energy Convers. Manage., 75: 256-262.
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34:   Jahanshahi,M., G.D. Najafpour and M. Rahimnejad, 2008. Applying the taguchi method for optimized fabrication of BSA nanoparticles as colloidal carrier. Afr. J. Biotechnol., 7: 362-367.
35:   Khademian, M., M. Khademian, M. Rahimnejad and M. Mokhtarian, 2013. HIO3 oxidation of alcohols to aldehydes and ketones in the presence of NaHSO4·H2O. Asian J. Chemister, 25: 2927-2928.
36:   Khalse, R., A. Ghoreyshi, M. Rahimnejad, M. Esfahanian, M. Mehdipour and S. Khoshhal, 2016. Bioethanol production from saccharomyces cerevisiae through conventional and membrane batch fermentation: experimental and modeling studies. Theor. Found. Chem. Eng., .
37:   Kiamahalleh, M.V., G.N. Darzi, M. Rahimnejad, A.A. Moghadamnia and M.V. Kiamahalleh, 2016. High performance curcumin subcritical water extraction from turmeric (Curcuma longa L.). J. Chromatogr. B, .
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38:   Lashkenari, M.S., H. Eisazadeh and M. Rahimnejad, 2014. Chemical synthesis and characterization of novel antibacterial polycyclic polymer. Polycyclic Aromat. Compd., 34: 620-631.
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39:   Mashkour, M. and M. Rahimnejad, 2015. Effect of various carbon-based cathode electrodes on the performance of microbial fuel cell. Biofuel Res. J., 2: 296-300.
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40:   Mohamadi, M., M. Rahimnejad and G.D. Najafpour, 2010. Immobilize P. acidi-propeonici in immobilize cell reactor and investigation kinetic model. Iran. J. Energy Environ., 1: 9-16.
41:   Mohammadi, M, G.D. Najafpour, M. Asadi, M. Rahimnejad, S. Najafpour and M. Pazouki, 2008. Production of organic acids in an immobilized cell reactor using propionibacterium acidi-propionici. Afr. J. Biotechnol., 7: 3332-3338.
42:   Mokhtarian, N., M. Rahimnejad, G.D. Najafpour, W.R.W. Daud and A.A. Ghoreyshi, 2014. Effect of different substrate on performance of microbial fuel cell. Afr. J. Biotechnol., 11: 3363-3369.
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43:   Mokhtarian, N., W.D. Wan Ramli, M. Rahimnejad and G.D. Najafpour, 2012. Bioelectricity generation in biological fuel cell with and without mediators. World Appl. Sci. J., 18: 559-567.
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44:   Movagharnejad, K., M. Rahimnejad and G. Aghakhani, 2007. Universal behavior of the enthalpy of vaporization:An empirical equation. Fluid Phase Equilib., 257: 120-121.
45:   Najafgholi, Z. and M. Rahimnejad, 2016. Improvement of sediment microbial fuel cell performance by application of sun light and biocathode. Korean J. Chem. Eng., 33: 154-158.
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46:   Najafgholi, Z., M. Rahimnejad and G. Najafpour, 2015. Effect of electrolyte conductivity and aeration on performance of sediment microbial fuel cell. J. Renewable Energy Environ., 1: 49-55.
47:   Najafpour, G.D., M. Rahimnejad, N. Mokhtarian, W.R.W. Daud and A.A. Ghoreyshi, 2010. Bioconversion of whey to electrical energy in a biofuel cell using Saccharomyces cerevisiae. World Appl. Sci. J., 8: 1-5.
48:   Nasrollahi, F., G. Bakeri, A.F. Ismail, M. Rahimnejad and M. Imanian, 2013. Development of a model for dimethyl ether non-adiabatic reactors to improve methanol conversion. Korean J. Chem. Eng., 30: 1867-1875.
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49:   Peyghambarzadeh, S.M., S. Shahpouri, N. Aslanzadeh and M. Rahimnejad, 2013. Thermal performance of different working fluids in a dual diameter circular heat pipe. Ain Shams Eng. J., 4: 855-861.
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50:   Rahimnejad M., M. Jahanshahi and G. Najafpour, 2011. Fabrication and optimization of BSA nanoperticles. Lambert Academic Publishing, Germany, Pages: 72.
51:   Rahimnejad, M. and G. Najafpour, 2015. Biochemical Engineering And Biotechnology. Elsevier, UK, Pages: 422.
52:   Rahimnejad, M. and S.K. Hassaninejad Darzi, 2015. Organic template-free synthesis of Ni-ZSM-5 nanozeolite: a novel cata-lyst for formaldehyde electrooxidation onto modified Ni-ZSM-5/CPE. Int. J. Bio Inorg. Hybrid Nanomater., 4: 141-153.
53:   Rahimnejad, M., A. Adhami, S. Darvari, A. Zirepour and S.E. Oh, 2015. Microbial fuel cell as new technology for bioelectricity generation: A review. Alexandria Eng. J., 54: 745-756.
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54:   Rahimnejad, M., A.A. Ghoreyshi, G. Najafpour and T. Jafary, 2011. Power generation from organic substrate in batch and continuous flow microbial fuel cell operations. Applied Energy, 88: 3999-4004.
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55:   Rahimnejad, M., A.A. Ghoreyshi, G.D. Najafpour, H. Younesi and M. Shakeri, 2012. A novel microbial fuel cell stack for continuous production of clean energy. Int. J. Hydrogen Energy, 37: 5992-6000.
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56:   Rahimnejad, M., G. Bakeri, G. Najafpour, M. Ghasemi and S.E. Oh, 2014. A review on the effect of proton exchange membranes in microbial fuel cells. Biofuel Res. J., 1: 7-15.
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57:   Rahimnejad, M., G. Bakeri, M. Ghasemi and A. Zirepour, 2014. A review on the role of proton exchange membrane on the performance of microbial fuel cell. Polym. Adv. Technol., 25: 1426-1432.
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58:   Rahimnejad, M., G. Najafpor and Z. Najafgholi, 2015. Sediment as new source of clean energy for bioelectricity production. J. Sci. Kharazmi Univ., 14: 199-208.
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59:   Rahimnejad, M., G. Najafpour and G. Bakeri, 2012. Investigation and modeling effective parameters influencing the size of BSA protein nanoparticles as colloidal carrier. Colloids Surfaces A Physicochem. Eng. Aspects, 412: 96-100.
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60:   Rahimnejad, M., G.D. Najafpour and A. Ghoreyshi, 2011. Enhancement of microbial fuel cell for electrical output using mediators and oxidizing agents. Energy Sources Part A Recovery Util. Environ. Eff., 33: 2239-2248.
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61:   Rahimnejad, M., G.D. Najafpour and M. Jahanshahi, 2009. Evaluation of effective parameters on fabrication of BSA nanoparticles. Nat., .
62:   Rahimnejad, M., G.D. Najafpour, A.A. Ghoreyshi, F. Talebnia and G.C. Premier et al., 2012. Thionine increases electricity generation from microbial fuel cell using Saccharomyces cerevisiae and exoelectrogenic mixed culture. J. Microbiol., 50: 575-580.
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63:   Rahimnejad, M., G.D. Najafpour, A.A. Ghoreyshi, M. Shakeri and H. Zare, 2011. Methylene blue as electron promoters in microbial fuel cell. Int. J. Hydrogen Energy, 36: 13335-13341.
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64:   Rahimnejad, M., K. Pirzade and I. Mahdavi and S.M. Peyghambarzade, 2015. Pb (II) removal from aqueous solution by adsorption on activated carbon from Kiwi Pee. Environ. Eng. Manage. J., .
65:   Rahimnejad, M., M. Ghasemi, G. Najafpour, A. Ghoreyshi, G. Bakeri, S.K.H. Nejad and F. Talebnia, 2012. Acetone removal and bioelectricity generation in dual chamber Microbial Fuel Cell. Am. J. Biochem. Biotechnol., 8: 304-310.
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66:   Rahimnejad, M., M. Ghasemi, G.D. Najafpour A. Ghoreyshi G. Bakeri F. Talebnia and S. Oh, 2013. Investigation of different mediators in microbial fuel cell with cyclic voltammeter. Pak. J. Biotechnol., 10: 37-51.
67:   Rahimnejad, M., M. Ghasemi, G.D. Najafpour, M. Ismail, A.W. Mohammad, A.A. Ghoreyshi and S.H. Hassan, 2012. Synthesis, characterization and application studies of self-made Fe 3 O 4/PES nanocomposite membranes in microbial fuel cell. Electrochim. Acta, 85: 700-706.
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68:   Rahimnejad, M., M. Jahanshahi and G.D. Najafpour, 2006. Production of biological nanoparticles from bovine serum albumine for drug delivery. Afr. J. Biotechnol., 5: 1918-1923.
69:   Rahimnejad, M., M. Jahanshahi and G.D. Najafpour, 2010. Fabrication of bovine serum albumin nanoparticles self-assembled coacervation method for drug delivery systems. Iran. J. Energy Environ., 6: 93-99.
70:   Rahimnejad, M., M. Mokhtarian, G.D. Najafpour, D. Ramli and A. Ghoreyshi, 2010. Saccharomyces cerevisiae power producer in biological fuel cell. Iran. Chem. Eng. J., 6: 93-99.
71:   Rahimnejad, M., N. Mokhtarian, G.D. Najafpour, W.R.W. Daud and A.A. Ghoreyshi, 2009. Low voltage power generation in abiofuel cell using anaerobic cultures. World Applied Sci. J., 6: 1585-1588.
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72:   Rahimnejad, M., S.K. Hassaninejad Darzi and S.M. Pourali, 2015. Preparation of template-free sodalite nanozeolite-chitosan-modified carbon paste electrode for electrocatalytic oxidation of ethanol. J. Iran. Chem. Soc., 12: 413-425.
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73:   Rahimnejad, M., S.K. Hassaninejad Darzi, P. Izadi and A. Asghar, 2015. Surfactant modified ZSM-5 nanozeolite in the modification of carbon paste electrode for voltammetric determination of sulfide. Anal. Bioanal. Electrochem., 7: 370-386.
74:   Rahimnejad, M., T. Jafary, F. Haghparast, G.D. Najafpour and A.A. Ghoreyshi, 2010. Nafion as a nanoproton conductor in microbial fuel cells. Turk. J. Eng. Enviorn. Sci., 34: 289-292.
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75:   Rahimpour, A., M. Jahanshahi, B. Rajaeian and M. Rahimnejad, 2011. TiO2 entrapped nano-composite PVDF/SPES membranes: Preparation, characterization, antifouling and antibacterial properties. Desalination, 278: 343-353.
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76:   Talebnia, F., M. Mighani, M. Rahimnejad and I. Angelidaki, 2015. Ethanol production from steam exploded rapeseed straw and the process simulation using artificial neural networks. Biotechnol. Bioprocess Eng., 20: 139-147.
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77:   Tardast, A., G.D. Najafpour, M. Rahimnejad and A. Amiri, 2012. Bioelectrical power generation in a membrane less microbial fuel cell. World Appl. Sci. J., 16: 179-182.
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78:   Tardast, A., M. Rahimnejad, G. Najafpour, A. Ghoreyshi, G.C. Premier, G. Bakeri and S.E. Oh, 2014. Use of artificial neural network for the prediction of bioelectricity production in a membrane less microbial fuel cell. Fuel, 117: 697-703.
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79:   Tardast, A., M. Rahimnejad, G. Najafpour, K. Pirzade and N. Mokhtarian, 2012. Prediction of bioelectricity production by neural network. J. Biotechnol. Pharm. Res., 3: 62-68.
80:   Tardast, A., M. Rahimnejad, G.D. Najafpour, A.A. Ghoreyshi and H. Zare, 2012. Fabrication and operation of a novel membrane-less microbial fuel cell as a bioelectricity generator. Int. J. Environ. Eng., 3: 1-5.
81:   Tehrani, N.S., G.D. Najafpour, M. Rahimnejad and H. Attar, 2015. Performance of up flow anaerobic sludge fixed film bioreactor for the treatment of high organic load and biogas production of cheese whey wastewater. Chem. Ind. Chem. Eng. Q., 21: 229-237.
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82:   Zabihollahpour, A., M. Rahimnejad and F. Talebnia, 2015. Sediment microbial fuel cell as new source of renewable and sustainable energy: present status and future prospects. RSC Adv., 5: 94171-94183.
83:   Zare H., G.D. Najafpour, A.A. Ghoreyshi, M. Rahimnejad and H.D. Heydarzadeh, 2009. Removal of ethyl acetate from the contaminated air stream in a biofilter with the active biofilm of pseudomonas putida. World Appl. Sci. J., 7: 132-139.
84:   Zare, H., G. Najafpour, H. Heydarzadeh, M. Rahimnejad and A. Tardast, 2012. Performance and kinetic evaluation of ethyl acetate biodegradation in a biofilter using pseudomonas putida. Iran. J. Energy Environ., 3: 14-18.
85:   Zare, H., G. Najafpour, M. Rahimnejad, A. Tardast and S. Gilani, 2012. Biofiltration of ethyl acetate by pseudomonas putida immobilized on walnut shell. Bioresour. Technol., 123: 419-423.
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86:   Zare, H., H. Heydarzade, M. Rahimnejad, A. Tardast, M. Seyfi and S.M. Peyghambarzadeh, 2015. Dried activated sludge as an appropriate biosorbent for removal of copper (II) ions. Arabian J. Chem., 8: 858-864.
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