صورة رسمية
م. د. احمد عبدالرحمن محمد حسون
الاختصاص العام
فيزياء النانوتكنولوجي
الاختصاص العام
فيزياء النانوتكنولوجي
الشهادات الأكاديمية
- حاصل على شهادة الدكتوراه في فيزياء النانوتكنولوجي – فيزياء النانوتكنولوجي في 2019 من جامعة جيمس كوك في أستراليا
- حصل على شهادة الماجستير في فيزياء - فيزياء الليزر في 2012 من Samhigginbottom في الهند
- حصل على شهادة البكالوريوس في فيزياء الليزر في 2007 من الجامعة التكنولوجية في العراق
الخبرات العملية
• Expertise in eco-friendly plasma polymerization for synthesizing sustainable polymer films, metal/polymer
nanocomposites, and vertical graphene nanostructures, with applications in biomaterials and green
microelectronics.
• Committed to lab sustainability, with expertise in green lab practices, biological waste management, and
environmentally responsible storage procedures.
• Knowledgeable in dielectric characterizations for polymer thin films using Hioki LCR meter and Keithley
source meter, focusing on energy-efficient and sustainable electronic materials.
• Hands-on experience with advanced characterization techniques such as Spectroscopic Ellipsometry,
Raman, Contact Angle, ICP-MS, Nano-indentation, AFM, FTIR, TEM, and UV-spectroscopy, supporting the
development of sustainable materials.
• Skilled in biological PC2 lab work, specializing in the investigation of bio-based antimicrobial coatings using
Live/Dead staining, Spectrometer, CSLM, and SEM for eco-friendly applications.
nanocomposites, and vertical graphene nanostructures, with applications in biomaterials and green
microelectronics.
• Committed to lab sustainability, with expertise in green lab practices, biological waste management, and
environmentally responsible storage procedures.
• Knowledgeable in dielectric characterizations for polymer thin films using Hioki LCR meter and Keithley
source meter, focusing on energy-efficient and sustainable electronic materials.
• Hands-on experience with advanced characterization techniques such as Spectroscopic Ellipsometry,
Raman, Contact Angle, ICP-MS, Nano-indentation, AFM, FTIR, TEM, and UV-spectroscopy, supporting the
development of sustainable materials.
• Skilled in biological PC2 lab work, specializing in the investigation of bio-based antimicrobial coatings using
Live/Dead staining, Spectrometer, CSLM, and SEM for eco-friendly applications.
البحوث المنشورة
1-Recent Progress in Marine Antifouling Technology Based on Graphene and Graphene Oxide, Advanced Engineering Materials, 2024
2-Inorganic nanoparticles to overcome efficiency inhibitors of organic photovoltaics: An in-depth, Renewable and Sustainable Energy Reviews
, 2022
3- Bactericidal vertically aligned graphene networks derived from renewable precursor, Carbon Trends
, 2022
4-Recent Advances on Convolutional Architectures in Medical Applications: Classical or Quantum, ISMSIT 2022 - 6th International Symposium on Multidisciplinary Studies and Innovative Technologies, Proceedings, 2022
5 -Functional nanomaterials, synergisms, and biomimicry for environmentally benign marine antifouling technology, Materials Horizons
, 2021
6 - In-Situ surface modification of terpinen-4-ol plasma polymers for increased antibacterial activity, Materials
, 2020
7- Fabrication of Nano-Onion-Structured Graphene Films from Citrus sinensis Extract and Their Wetting and Sensing Characteristics, ACS Applied Materials and Interfaces
, 2020
8- Pulse Plasma Deposition of Terpinen-4-ol: An Insight into Polymerization Mechanism and Enhanced Antibacterial Response of Developed Thin Films, Plasma Chemistry and Plasma Processing
, 2020
9- Eco-friendly nanocomposites derived from geranium oil and zinc oxide in one step approach, Scientific Reports
, 2019
10 - Electrically insulating plasma polymer/ZnO composite films, Materials
, 2019
11 -Plant secondary metabolite-derived polymers: A potential approach to develop antimicrobial films, Polymers
, 2018
12- Plasma Treatment of Polymeric Membranes, Biomedical Fields, 2018
13- The electrical properties of plasma-deposited thin films derived from Pelargonium graveolens, Electronics , 2017
14-Plasma polymerization: Electronics and biomedical application, AAAPT Experience, 2017
15- Retention of antibacterial activity in geranium plasma polymer thin films, Nanomaterials
, 2017
16- Review on the antimicrobial properties of Carbon nanostructures, Materials
, 2017
2-Inorganic nanoparticles to overcome efficiency inhibitors of organic photovoltaics: An in-depth, Renewable and Sustainable Energy Reviews
, 2022
3- Bactericidal vertically aligned graphene networks derived from renewable precursor, Carbon Trends
, 2022
4-Recent Advances on Convolutional Architectures in Medical Applications: Classical or Quantum, ISMSIT 2022 - 6th International Symposium on Multidisciplinary Studies and Innovative Technologies, Proceedings, 2022
5 -Functional nanomaterials, synergisms, and biomimicry for environmentally benign marine antifouling technology, Materials Horizons
, 2021
6 - In-Situ surface modification of terpinen-4-ol plasma polymers for increased antibacterial activity, Materials
, 2020
7- Fabrication of Nano-Onion-Structured Graphene Films from Citrus sinensis Extract and Their Wetting and Sensing Characteristics, ACS Applied Materials and Interfaces
, 2020
8- Pulse Plasma Deposition of Terpinen-4-ol: An Insight into Polymerization Mechanism and Enhanced Antibacterial Response of Developed Thin Films, Plasma Chemistry and Plasma Processing
, 2020
9- Eco-friendly nanocomposites derived from geranium oil and zinc oxide in one step approach, Scientific Reports
, 2019
10 - Electrically insulating plasma polymer/ZnO composite films, Materials
, 2019
11 -Plant secondary metabolite-derived polymers: A potential approach to develop antimicrobial films, Polymers
, 2018
12- Plasma Treatment of Polymeric Membranes, Biomedical Fields, 2018
13- The electrical properties of plasma-deposited thin films derived from Pelargonium graveolens, Electronics , 2017
14-Plasma polymerization: Electronics and biomedical application, AAAPT Experience, 2017
15- Retention of antibacterial activity in geranium plasma polymer thin films, Nanomaterials
, 2017
16- Review on the antimicrobial properties of Carbon nanostructures, Materials
, 2017
