Lebenslauf
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Seit 2021 |
Wissenschaftlicher Mitarbeiter am iPAT im Bereich Batterieverfahrenstechnik. |
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2019-2020 |
Postdoktorand: National Taiwan University, Arbeiten an Anodenmaterialien (Graphite und Si/Graphit-Verbundwerkstoffe), Superkondensatoren, Festelektrolyte und Kathoden für Li-S-Batterien. |
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2016-2018 |
Promotion (Chemieingenieurwesen) an der National Taiwan University, Dissertation: Fortschrittliche Materialien für Energiespeicheranwendungen. |
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2013-2015 |
Senior Process Engineer, Iranian Catalyst Development: Synthese und Entwicklung von Katalysator- und Trägerformulierungen vom Labor über die Pilotanlage bis zur industriellen Ebene. |
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2011-2015 |
Forscher und Dozent an der IAU-Kermanshah-Niederlassung: Unterrichten von Kursen für Chemieingenieurwesen und Forschung zu Nanomaterialien. |
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2007-2010 |
Masterstudium: Chemieingenieurwesen, Sahand University of Technology, Arbeiten an Nanokatalysatoren zur Reformierung von Methan. |
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2004-2006 |
Bachelorstudium: Chemieingenieurwesen (Chemische Industrie), Shahid Rajaee University. |
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Publikationen (Auswahl)
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[1] |
J. Müller*, M. Abdollahifar*, Andrey Vinograd, Markus Nöske, Christine Nowak, Shu-Jui Chang, Tobias Placke, Wolfgang Haselrieder, Martin Winter, Kwade, N.L. Wu, “Si-on-Graphite Fabricated by Fluidized Bed Process for High-Capacity Anodes of Li-ion Batteries”, Chemical Engineering Journal407 (1), 126603 (2021). |
[2] |
M. Abdollahifar, H.W. Liu, Ch.H. Lin, Y.T. Weng, H.S. Sheu, J.F. Lee, M.L. Lu, Y.F. Liao, N. L. Wu, “Enabling Extraordinary Rate Performance for Poorly Conductive Oxide Pseudocapacitors”, Energy & Environmental Materials 3 (3), 405-413 (2020). |
[3] |
Y.T. Weng, H. Wang, R. C. Lee, M. Abdollahifar, S.S. Huang, Ch. L. Kuo, Y. Cui, N.L. Wu, “Efficient Synthesis of High-Sulfur-Content Cathodes for High-Performance Li–S Batteries through Polysulfide–Carbon Coupling”, Journal of Power Sources, 450, 227676 (2020). |
[4] |
M. Abdollahifar, S.S. Huang, Y. H. Lin, H.S. Sheu, J.F. Lee, M.L. Lu, Y.F. Liao, N.L. Wu, “Tetragonal LiMn2O4 as Dual-Functional Pseudocapacitor-Battery Electrode in Aqueous Li-Ion Electrolytes”, Journal of Power Sources 412, 545-551 (2019). |
[5] |
M. Abdollahifar, S.S. Huang, Y. H. Lin, H.S. Sheu, J.F. Lee, M.L. Lu, Y.F. Liao, N.L. Wu, “High-performance carbon-coated ZnMn2O4 nanocrystallite supercapacitors with tailored microstructures enabled by a novel solution combustion method”, Journal of Power Sources, 378, 90-97, (2018). |
[6] |
M. Abdollahifar, M. Hidaryan, P. Jafari, “The role anions on the synthesis of AlOOH nanoparticles using simple solvothermal method”, Cerámica y Vidrio 57 (2), 66-72, (2018). |
[7] |
M. Abdollahifar, M. Haghighi, A.A. Babaluo, S. Khajeh Talkhoncheh, “Sono-Synthesis and Characterization of Bimetallic Ni-Co/Al2O3-MgO Nanocatalyst: Effects on Metal Content on Catalytic Properties and Activity for Hydrogen Production via CO2 Reforming of CH4”, Ultrasonics Sonochemistry, 31, 173-183 (2016). |
[8] |
M. Abdollahifar, AR. Karami, N. Haghnazari, Ch. Karami, “synthesis of porous boehmite nanostructures: effects of time and temperature in the hydrothermal method”, Ceramics-Silikaty, 59 (4) 305-310 (2015). |
[9] |
M. Abdollahifar, M. Haghighi, M. Sharifi, “Dry Reforming of Methane over Nanostructured Co/Y Catalyst for Hydrogen Production: Effect of Ultrasound Irradiation and Co Loading on Catalyst Properties and Performance”, Energy Conversion and Management, 103, 1101–1112 (2015). |
[10] |
M. Abdollahifar, M. Haghighi, A.A. Babaluo, “Syngas production via dry reforming of methane over Ni/MgO–Al2O3 Nanocatalyst synthesized using ultrasound energy”, Journal of Industrial and Engineering Chemistry 20 (4), 1845–1851 (2014). |