Student outputs and publications

Student outputs

Theses

The student theses listed here are University of E-JUST& Alexandria: Master & doctoral theses, submitted since 2013.

2022
  1. “Effect of the Coadministration of Angiogenic, Tp53 Therapy on A 3d Cancer Model and Investigating their Levels with Laser Induced Graphene Biosensor”, E-JUST M.Sc. degree, running, Betty Nugba.
  2. “Flexible graphene based sensor for sensing CO2/CO sensing”, E-JUST M.Sc. degree, running, Tauli Gracian.
  3. “Formulations of Metal Oxides Ink for InjekJet Printing”, Ph.D. degree Running, Alexandria University, Chemist Mohamed Belal
  4. “Synthesizing of Organic Soluble Conductive Graphene Ink for InjekJet Printing” Ph.D. degree Running, Alexandria University, Chemist Reham youssry.
  5. “Synthesizing of Conductive Water Soluble Functionalized Graphene Ink for InjekJet Printing” M.Sc. degree Running, Alexandria University, Chemist Marcus Ezzat.
  6. “Co-MOF based Catalysts for CO2 Conversion to Added Aalue Hydrocarbon”, M.Sc. degree, Running, E-JUST, Chemist Lawal Kabir.
2021
  1. “Heterogenous catalysts for CO2/CO hyadrogenation to value-added hydrocarbons”; EJUST, running, Chemist Hany Elsayed Ahmed Hassan
  2. “Study of graphene-based nanocomposites for electronic applications”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Mariumu Kassim .
  3. “Studying the Feasibility of 3D Inkjet Printing on the Fabrication of Bioelectrochemical Energy Storage Devices for Biophysical Application”, E-JUST, Ph.D. degree, running, Ahmed Mohmamed Bayomee.
  4. “Fabrication of High Performance Supercapacitor Electrodes for Energy Storage Applications”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Aya Al Kadi.
2020
  1. “A Study on Supercapacitive Characteristics of Carbon Nanofibers and Their Composites with Nickel and Cobalt Oxides”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Mohamed Hussein El-Shafei.
  2. “Characterization and Strain Sensing Applications of Thermoplastic Polyurethane-Based Composite Nanofibers”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Ahmed Shaker.
  3. “Study and characterization of the electrothermal properties of flexible nitrogen and fluorine doped graphene films” Awarded M.Sc. degree, E-JUST, Dr. Eng. Sandra Tembe.
2019
  1. “Synthesis of BiSb-graphene thermoelectric nanocomposite materials for low temperature application”: still running/Eng. Mohamed El-Asfory
  2. “Development of Metallic Nano Catalysts Supported on Graphene for liquid Fuels Production via Fischer-Tropsch Reaction”, Awarded M.Sc. degree, Alexandria University, Chemist. Islam Basha.
2018
  1. “Graphene-metal nanocatalysts for FTs applications”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Al-Hassan Nasr.
2017
  1. "Fabrication and Characterization of Functionally Graded Materials Using Advanced Experimental Approaches”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Ali Nasser.
  2. "Development of High Performance Nano-Catalysts for Energy and Enviromnmental Applications", Awarded Ph.D. degree, E-JUST, Dr. Chemist Haitham El-Bery.
2016
  1. “Fabrication of Flexible Supercapacitor-Using on Plan Graphene-Based Electrodes”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Ingy Bakry
  2. “Developing High Performance Graphene Based Electrodes for Quantum Dot Solar Cell Applications”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Amr Hussein.
2015
  1. “Graphene-based material for flexible sensor applications”, Awarded Ph.D. degree, E-JUST, Dr. Eng. Sahour El-Sayed
  2. “Graphene-based electrodes for capacitive deionization (CDI) applications, Awarded M.Sc. degree, Alexandria University, Chemist. Ahmed Rashad.
2014
  1. “Fabrication of high sensitive strain gauge sensors from carbon-based nano-structured materials”, Awarded Ph.D. degree 2014, E-JUST, Dr. Eng. Mohamed Gamil.
2013
  1. “Novel Graphene-Based Electrodes for Ultrasupecapacitor Applications”, Awarded Ph.D. degree 2013, EJUST, Mr. Dr. Sameh Hassan.

Journal Publications

2022
  1. F and N Co-Doping of laser-reduced graphene oxide for high-performance and flexible electrothermal heaters: the role of low-temperature PVDF dehydro-fluorination in the extension of Sp2 Carbon Domains; Sandra A.N Tembei, Mariamu Kassim, Amr Hessein, Ahmed M.R Fath El-Bab, A. A. El-Moneim; Accepted FlatChem 2022
  2. Testing new graphene oxide-coated glazing for papyrus manuscripts in museums – part I; A. El-Naggar and A. A. El-Moneim Randa Deraz, A. Fatah El Bab, Surf Interface Anal.2022; 54:148–155.
2021
  1. Effect of Compatibilizers on The Cure Characteristics and Mechanical Properties of Ternary Rubber Blend Composites: Abdelsalam, Amir; El-Sabbagh, Salwa H; Mohamed, Wael; Li, Jian ; Wang, Lihua ; Ismail, Hanafi ; Abdelmoneim, Ahmed; Khozami, Mohsen, Pigment & Resin Technology, 10.1108/prt-10-2021-0123, 2022
  2. Bio-Zirconium metal-organic framework re-generable bio-beads for the effective removal of organophosphates from polluted water; Kamal E. Diab, Eslam Salama, Hassan Shokry, Ahmed Abdelmoneim, Marwa F. Elkady: Polymers, 2021, 13, 3869
  3. Fe nanoparticle size control of Fe-MOF derived catalyst using a solvothermal method effect on fts activity and olefin production: Rashed, Ahmed; Nasser, Alhassan; Elkady, Marwa; Matsuhita, Yoshihisa; El-Moneim, Ahmed Abd; ACS Omega 2022, 7, 10, 8403–8419
  4. Selective conversion of syngas to olefins via novel Cu promoted Fe/RGO and Fe
  5. Mn/RGO Fischer-Tropsch catalysts: Fixed bed reactor vs. Slurry bed reactor: Nasser, AL-Hassan; El-Bery, Haitham; ELnaggar , Hamada; Basha, Islam; El-Moneim, Ahmed Abd; ACS Omega 2021, 6, 46, 31099–31111
  6. Effect of sulfur precursors on structural, optical, and electrical properties of Cu2SnS3 nanoparticles: Mohamed Abdel Latif, Amr Hessein, Nagih Shaalan, Mutsumi Sugiyama, Ahmed Abdel Moniem; Journal of Nanoparticle Research, 23, 2021, 216.
  7. Vapor-phase Doping of CNT Yarns for Thermoelectric Applications; Mariamu Ali, Naofumi Okamoto, Manish Pandey, Ahmed abdel Moneim, Masakazu Nakamura; Journal of Synthetic Metals; 280, 2021, 116874.
  8. Fabricating a Highly Sensitive Graphene Nanoplatelets Resistance-Based Temperature Sensor; M. Gamil, Shaalan, Nagih and A. A. El-Moneim; Sensor Review, 40(3), 2021. 251-259.
  9. Controlled-synthesis of hierarchical NiCo2O4 anchored on carbon nanofibers mat for free-standing and highly performance supercapacitors; M. Hussein El-Shafei, Ahmed G. El-Deen, Ahmed Abd El-Moneim, Amr Hussein; Journal of Materials Science: Materials in Electronics; 32, 15882–15897 (2021).
  10. Effect of carbon black loading on mechanical and rheological properties of natural rubber/styrene-butadiene rubber/nitrile butadiene rubber blend: Amir Abdelsalam, A.A., Araby, S., El-Sabbagh, S.H., Abdelmoneim, A., Hassan, M.A.; Journal of Thermoplastic Composite Materials, 34(4), 2021, 490–507.
  11. Heteroatom-doped reduced graphene oxide/polyaniline nanocomposites with improved n-type thermoelectric performance: Mariumu Kassim, Amr Hussein, A. A El-Moneim; J. Appl. Polym Sci. 2021; e50852.
  12. Biocompatible MIP-202 Zr-MOF tunable sorbent for cost-effective decontamination of anionic and cationic pollutants from waste solutions: Kamal Essam, Marwa El-Kadi and A. A. Moneim; Scientific Reports-Nature, 11, 2021, 6619.
  13. Towards high performance flexible planar supercapacitors: in-situ laser scribing doping and reduction of graphene oxide films; Aya Hamed, Amr Hessein and A. A. El-Moneim, Applied Surface Science, 551, 2021, 149457.
  14. An efficient strategy for transferring carbon nanowalls film to flexible substrate for supercapacitor application; Ingy Bakry, S. Mori and A. A. El-Moneim; J. Power Sources,493, 2021, 229684.
  15. Comparative study on mechanical and rheological properties of ternary rubber blends; Amir A. Abdelsalam, Sherif Araby, S. H. El-Sabbagh, M.A Hassan and A. A. El-Moneim; Polymers and Polymer Composites: 29(1), 2021,15–28.
2020
  1. Effect of filler loading on curing characteristics and physical properties of ternary rubber blend composites; Amir A. Abdelsalam, Ahmed Abd El-moneim, M.A Hassan; KGK rubberpoint September 8. 2020.
  2. In-situ laser-assisted doping and reduction of graphene oxide films for flexible and high-performance electrothermal heaters; Sandra A.N Tembei, Amr Hessein, Ahmed M.R Fath El-Bab, Ahmed Abd El-Moneim; FlatChem 24, 2020,100199.
  3. A low voltage, flexible, graphene-based electrothermal heater for wearable electronics and localized heating applications; Sandra Tembei, Amr Hessein, Ahmed R F El-Bab, Ahmed Abd El-Moneim; Materials Today Proceedings, 33, 2020, 1840-1844.
  4. A comprehensive study on Cu2SnS3 prepared by sulfurization of Cu-Sn sputtered precursor for thin-film solar cell applications; Mohamed Abdel Latif. Taichi Tosuke, Ayaka Kanai, Amr Hessein, Nagih Shaalan, Koichi Nakamura, Mutsumi Sugiyama, Ahmed Abdel Moniem; Journal of Materials Science: Materials in Electronics, 31(17), 2020, 14577-14590.
  5. High performance asymmetric supercapacitor based hierarchical NiCo2O4@carbon nanofibers //activated multichannel carbon nanofibers; Ahmed G. El-Deen, M.H. El-Shafei, Amr Hessein, Ahmed H Hassanin, N. M. Shaalan and Ahmed Abd El-Moneim; Nanotechnology, 31(36), 2020, 365404.
  6. Free-standing Electrodes Based on Interconnected Carbon Nanofibers Induced Polyvinyl Alcohol-Carbon Nanotubes for Supercapacitor Application; Mohamed H. El-Shafei, Ahmed H Hassanin, N. M. Shaalan, A. A. El-Moneim; Nanotechnology, 31(8), 2020, 185303.
  7. 3-D hierarchical graphene/CNT with interfacial polymerized polyaniline Nano-fibers, Ahmed Baker El Basty, A. A. El-Moneim; Spectrochimica Acta Part A, 226, 2020, 117629.
  8. Studying the conversion of graphite into nanographene sheets using supercritical phase exfoliation method; M. Adel, R. Abd El kareem, A. A. El-Moneim; Journal of Fullerenes, Nanotubes and Carbon Nanostructures, 28(7), 2020, 589-602.
  9. Thermal behavior of functionalized conventional polyaniline with hydrothermally synthesized graphene/carbon nanotubes, Baker El Basty; A. A. El-Moneim, Journal of Fullerenes, Nanotubes and Carbon Nanostructures, 28(6) 2020, 452-457.
  10. Structural Properties and Capacitive Performance of Cathodically Deposited MnO2 Film on Electrophoretically Reduced Graphene Oxide, Sameh Hassan, Masaki Suzuki, S. Mori and A. A. El-Moneim; Journal of key Engineering Materials, 835, 115-122, 2020
  11. Study of the reduction of Fe on reduced graphene oxide as a catalystfor carbon monoxide reduction:Hamada A. El-naggar, AL-Hassan M. Nasser, Islam K.Basha1, Haitham M. Elbery, A. A. El-Moneim; Journal of Key Engineering Materials, 835, 130-134, 2020.
2019
  1. Novel bacteria-immobilized CA/PEO nanofiberous membrane for wastewater treatment; Doaa Zamel, Ahmed H. Hassanin, Rania Ellethy, Gamal Singer; Ahmed Abdelmoneim, Scientific Reports-Nature, 9, 2019, 18994.
  2. Micromechanical modeling and experimental verification of self-healing microcapsules-based composites; Abdallaha Ahmed, Kazuaki Sanada, Mohamed Fanni, Ahmed Abd El-Moneim; Mechanics of Materials, 137, 2019, 103070.
  3. Non-equal channel multi-angular extrusion (NECMAE): A design for severe plastic deformation-proof of concept, Mohamed S. El-Asfoury, Mohamed Nasr, Ahmed Abdelmoneim; Transactions of the Indian Institute of Metals, 72, 2019, 2827–2838
  4. Hybrid CuS-PEOT:PSS- based counter electrode for quantum sensitized solar cell, Mohamed Nabil, Amr Hessen, Mabrouk K. El-Mansy, and A. A. El-Moneim; Optik, 193, 2019, 162974.
  5. Micropatterned flexible strain gauge sensor based on wet electrospun polyurethane/PEDOT: PSS Nanofibers”, Ahmed shaker, A. A. El-Moneim; Journal of Smart Mater. Struct., 28, 2019, 075029.
  6. Evaluation of chitosan impregnated with silver nanoparticles in the treatment of chronic venous leg ulcer: an open-label controlled study; Maha A El-Gayyaar; Ahmed A Abdel Hamed; Khalid Mowafy; Moustafa A El-saied; Mqdad H Faqe; Clinical Dermatology Review, 3(1), 2019, 84-88.
  7. utilizing FBR to produce olefins from CO reduction using Fe-Mn nanoparticles on reduced graphene oxide catalysts and comparing the performance with SBR; Al-Hassan Nasser, El-Naggar Hamada, A. A. El-Moneim; RSC Advances, 9(19), 2019, 10937-10937.
2018
  1. Ultra-high Sensitive Graphene-Based Strain Gauge Sensor: Fabrication on Si/SiO2 and First-Principles Simulation; Mohammed Gamil, Ahmed M. R. Fath El-Bab, Ahmed Abd El-Moneim and Koichi Nakamura: Sensors and Materials; 30, 2018, 2085–2100.
  2. Enhanced Thermoelectric Performance of P-Type Bismuth Antimony Alloy by Graphene Dopant, Mohamed S. El-Asfoury, Mohamed N. A. Nasr, Koichi Nakamura, A. A. El-Moneim: Journal of Alloys and Compounds; 745, 2018, 331-340.
  3. Controlled Synthesis of Copper Sulfide-Reduced Graphene Oxide Counter Electrode for High-Performance Cds-Sensitized Solar Cell; Amr Hessein, and Ahmed Abd El-Moneim, New Carbon Materials; 33, 2018, 26-35.
2017
  1. Fabrication of an Efficient p-n Heterojunction from RGO-TiO2 Based Composite for Hydrogen Generation via Water-splitting: Comparison between Au and Pt Reduction Sites; Haitham El-Bery, Yoshihisa Matsushita; Ahmed Abd El-Moneim; Applied Surface Science; 423 (30), 2017, 185–196.
  2. Two steps synthesis approach of MnO2/graphene nanoplates/graphite composite electrode for supercapacitor application A.E. Rashed and A.A. El-Moneim: Materials Today Energy, 3, 2017, 24-31
2016
  1. Enhancing The Stability Of Co Gradient in Sintered WC-Co Functionally Graded Composites Using Graphene Addition; Ali Nasser, Kazunari Shinagawa, Hassan El-Hofy, A. A. El-Moneim, Journal of the Ceramic Society of Japan, 124(12), 2016, 1-8.
  2. One Pot Hydrothermal Synthesis of Copper Sulfide Nanoparticles Decorated on Reduced Graphene Oxide Sheets as an Efficient Counter Electrode for CdS Sensitized Solar Cell; Amr Hessien, A. A. El-Moneim, Japanese Journal of Applied Physics; 55, 2016, 112301.
  3. Low-cost Flexible Supercapacitors Based on Laser Reduced Graphene Oxide Supported on PET Substrate; Ingy Bakry, S. Mori and A. A. El-Moneim, Journal of Power Sources, 324, 2016, 272-281.
  4. Thermoelectric Power Factor Performance of BiSb-Graphene Composite; Mohamed S. El-Asfoury, Mohamed N. A. Nasr, Koichi Nakamura, A. A. El-Moneim, Japanese Journal of Applied Physics, 55, 2016, 045802.
  5. Development of Graphene Film on Flexible Poly-ethylene Terephthalate Substrat using High Power LASER : Temperature Dependency of Gauge Factor for Graphene-based Strain Sensor;Sahour Sayed, Ahmed M.R. Fath El-Bab, Koichi Nakamura,A. A. El-Moneim, Sensors Review, 36(2), 2016, 140-147.
2014
  1. Facile Synthesis of MnO2/Graphene Electrode by Two-steps Electrodeposition for Energy Storage Application; S. Mohamed, M. Suzuki and A. A. El-Moneim, Int. J. of Electrochem. Sci., 9, 2014, 8340- 8354.
  2. MnO2/Carbon Nanowalls Electrode for Future Energy Storage Application: Effect of Carbon Nanowalls Growth Period and MnO2 Mass Loading; Sameh Hassan, Masaki Suzuki, S. Mori and A. A. El-Moneim, RSC Advances, 4(39), 2014, 20479-20488
  3. New Flexible Graphene-based Strain Gauge Sensor; Mohammed Gamil, Hassan Nageh, Ingy Bakrey, Sahour Sayed, Osamu Tabata, Koichi Nakamura, Ahmed M.R. Fath El-Bab, A. A. El-Moneim, Sensors and Materials, 26(9), 2014, 699–709.
  4. New MnO2/carbon Nanowalls Composite Electrode for Supercapacitor Application; Sameh Hassan, Masaaki Suzuki, S. Mori and A. A. El-Moneim, J. Power Sources, 249, 2014, 21.
2013
  1. Simulation of Graphene Piezoresistivity based on Density Functional Calculations; Mohammed Gamil, Koichi Nakamura, Ahmed M.R. Fath El-Bab, Osamu Tabata, A. A. El-Moneim, Modeling and Numerical Simulation of Materials Sci., 3, 2013, 117-123.
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