Arash Ebrahimi

Adept at scientific writing and fostering team collaboration. I have also advanced research in MOFs and photocatalytic properties at institutions like Technical University of Vienna. My expertise spans research design to data analysis, underscored by multiple significant scholarships such as DAAD, Action Austria-Slovakia and Erasmus+ at different Universities. Excel in problem-solving, critical thinking and team work to achieve common project goals.

• Detoxification of Organophosphates (Diazinon) by Metal-Organic Frameworks (MOFs), Prof. E. Nassiroleslami, Prof. R. Zibaseresht, Aja University of Medical Science, Tehran, Iran, 01/01/16, 08/01/21
• Nanozeolitic imidazolate frameworks (ZIF-7 and ZIF-9): synthesis, characterization and photocatalytic property investigation, Prof. M. R. Mansournia, University of Kashan, Kashan, Iran, 01/01/13, 04/01/17
• Synthesis and characterization of some new Phosphine Ni (II) Schiff bases complexes, Prof. A. H. Kianfar, Yasouj University, Yasouj, Iran, 09/01/10, 09/01/12

• Cycling
• Palying Futsal
• Hiking
• Traveling

Conference Presentations

1. A. Ebrahimi, L. Krivosudský, X-ray Characterization of new 1D Chain-Like Metalloporphyrin Metal-Organic Framework, June 19th-23rd 2023, 3rd International School on Porous Materials, Como, Villa del Grumello, Italy.

2. A. Ebrahimi, L. Krivosudský, Ultra-fast catalytic detoxification of Organophosphates by nano-zeolitic imidazolate frameworks. 8th International Conference on Metal-Organic Frameworks and open framework Compounds, Sep 4-7th 2022, International conference, Center Dresden, Technical University of Dresden, Germany.

3. M. Ebrahimi, A. Kianfar, Synthesis and Characterization of some new trident phosphine Ni (II) Schiff base complexes. 14th Iranian Inorganic Chemistry Conference, Aug 28-29 2012, Sharif University of Technology (Poster).

1. A. Ebrahimi, L. Krivosudsky, S. Khodabakhshi, M. Khaleghiabbasabadi, M. Sadeghi, M. Motola, Polyoxometalate-based Covalent Organic Frameworks (POMCOFs): the next generation of heterogeneous catalysts, Coord. Chem. Rev., Submitted.

2. A. Ebrahimi, L. Krivosudsky, A. Cherevan, D. Eder, Polyoxometalate-based porphyrinic MOFs as heterogenous catalysts, Coord. Chem. Rev., 508 (2024) 215764.

3. J. D. Somasundaram, A. Ebrahimi, S. P. Nandan, A. Cherevan, D. Eder, M. Šupolíková, E. Nováková, R. Gyepes, L. Krivosudský, Functionalization of decavanadate anion by coordination to cobalt (II): Binding to proteins, cytotoxicity, and water oxidation catalysis, J. Inorg. Biochem., 239 (2023) 112067.

4. A. Ebrahimi, L. Krivosudsky, Metalloporphyrin Metal-Organic Frameworks: Eminent Synthetic Strategies and Recent Practical Exploitations, Molecules. 27 (2022) 4917.

5. A. Ebrahimi, E. Nassireslami, R. Zibaseresht, M. Mohammadsalehi, Ultra-fast catalytic detoxification of Organophosphates by nano-zeolitic imidazolate frameworks, Mol. Catal., 490 (2020) 110965.

6. A. Ebrahimi, M. R. Mansournia, Zeolitic imidazolate framework-7: novel ammonia atmosphere-assisted synthesis, thermal and chemical durability, phase reversibility, and potential as highly efficient nanophotocatalyst, Chem. Phys., 511 (2018) 33-45.

7. A. Ebrahimi,M. R. Mansournia, Cost-effective fabrication of thermal- and chemical-stable ZIF-9 nanocrystals at ammonia atmosphere, J. Phys. Chem. Solids., 11 (2017) 12-17.

8. M. Ebrahimi, M. R. Mansournia, Rapid room temperature synthesis of zeolitic imidazolate framework-7 (ZIF-7) microcrystals, Mater. lett., 189 (2017) 243–247.

9. A. Kianfar, M. Ebrahimi; Synthesis, characterization and structural determination of some nickel (II) complexes containing imido Schiff bases and substituted phosphine ligands, Spectrochim. Acta, Part A., 115 (2013) 725–729.

v Hybrid inorganic-organic synthesis (MOFs, ZMOFs, ZIFs, COFs, HOFs and etc.) and/or their composites with/without carbon allotropes (fullerenes, carbon active, carbon nano tubes and etc.) and especially their application in gas sorption (H2, CH4, CS2, H2S and mercaptans and etc.) and gas storage (H2, CO2and etc.) and for a wide range of applications such as catalysis, host-guest, drug delivery, sensing, energy storage, (photo)-electrochemical catalysis, separation and so on.

v Molecular Dynamics simulations, Computational screening and DFT calculations.

v Versatile porous biocompatible nanometric Metal Organic Frameworks (MOFs)

v Luminance-based MOFs inorganic-organic nanoparticles

v Material chemistry.

v Inorganic supramolecular chemistry (Zeolites, Organometallics, POM (Polyoxometalates), Porphyrin, and etc.

v Inorganic synthesis and discovery of new synthetic methodology.

v Renewable energies (fuel cell, solar cell, regeranative or hybrid solar hydrogen fuel cell and etc.).

v Schiff bases complexes and investigation of their thermodynamics and kinetics.

v And also, I know about interpretation of NMR, X-ray and methods for crystallization, PXRD, CO2 ads-des, TGA/DSC, BET (N2ads-des), FE-SEM/EDX, HPLC, UV-Visible, DRS, FT-IR, CV (cyclic voltammetry), CHNS (elemental analysis) and so on.

Prof. Christoph Janiak

Full Professor of Inorganic Chemistry at University of Dusseldorf

E-mail: Janiak@hhu.de

Tel: +49 211 81-12286

Prof. Daniel Maspoch

Full Professor of Inorganic Chemistry at ICN2

E-mail: daniel.maspoch@icn2.cat

Tel: +34 93 737 46 35

Prof. Martin Motola

Assistant Professor of Inorganic Chemistry at Comenius University in Bratislava

E-mail: martin.motola@uniba.sk

Tel: +421 2 602 96 273

Supervisor of Ph.D thesis

Prof. Alexey Cherevan

Assistant Professor of Inorganic Chemistry at Technical University of Vienna

E-mail: alexey.cherevan@tuwien.ac.at

Tel: +43 1 58801 165230