Mahmoud A. Abdelkawy | Organic Chemistry | Best Researcher Award

Mahmoud A. Abdelkawy | Organic Chemistry | Best Researcher Award

Dr Mahmoud A. Abdelkawy, Chemistry Department, Faculty of Science Tanta University, Egypt

Dr. Mahmoud A. Abdelkawy is a Lecturer of Organic Chemistry at Tanta University, Egypt. He earned his Ph.D. in Organic Chemistry in 2021 from Tanta University, in collaboration with Toyohashi University of Technology (TUT), Japan. His research focuses on polymer nanocomposites, chiral organocatalysts, and sustainable materials for applications in energy storage, biosensors, and catalysis 🌱🧪. Dr. Abdelkawy has published notable work on chitosan-supported organocatalysts and fiber-reinforced composites. His expertise includes advanced synthesis techniques, polymer characterization, and teaching various chemistry courses. He is skilled in multiple analytical methods, including NMR, HPLC, and spectroscopy 🔬📈.

Publication profile

google scholar

Education

Dr. Mahmoud A. Abdelkawy is a dedicated scholar in organic chemistry with a Ph.D. from Tanta University, Egypt, completed in August 2021. His thesis, titled “Studies of Polymer-Polymer Nanocomposite-Hybrids Including Chiral Polymer as a New Class of Composite Materials,” was conducted through a collaborative program with Toyohashi University of Technology (TUT), Japan, under the co-supervision of Prof. Dr. Shinichi Itsuno 🇪🇬🇯🇵. Earlier, Dr. Abdelkawy earned an M.Sc. in Organic Chemistry in 2015, focusing on the “Preparation of Polybenzoxazine Nanocomposites” and their applications in organic reactions. His foundation in the field is solidified by a Preliminary Master’s in Physical and Organic Chemistry, where he achieved a “Very Good” rating.

Experience

📘 Currently a Lecturer of Organic Chemistry at Tanta University, Dr. Mahmoud A. Abdelkawy has built a rich academic and research career. From 2018 to 2021, they served as a Research Scholar at Toyohashi University of Technology, Japan, focusing on polymer synthesis for biosensors under Prof. Shinichi Itsuno. Their expertise spans benzoxazine resin preparation, polymer nanocomposites, and functionalized polymers in organic synthesis. Skilled in stereoselective synthesis and polymeric catalysis, they excel in using advanced analytical techniques like TGA, DSC, NMR, SEM, and HPLC. Additionally, Dr. Mahmoud A. Abdelkawy has taught practical courses to students in science, dentistry, and education since 2008. 🎓

Research focus

Dr. Mahmoud A. Abdelkawy’s research primarily centers on the synthesis and characterization of chiral organocatalysts and nanocomposite materials. His work on cinchona-urea-supported catalysts has contributed significantly to advancements in asymmetric Michael reactions, offering sustainable options in organic synthesis 🌿. Additionally, he investigates the thermal and morphological properties of polymer composites, often using biowaste like date palm fiber 🌴 to develop reinforced, eco-friendly materials. His research extends to biodegradable materials and polymer-polymer nanocomposites, aiming to innovate in catalysis and sustainable materials for environmental applications ♻️. Dr. Abdelkawy’s studies reflect a commitment to green chemistry and material science.

Publication top notes

Chitosan-supported cinchona urea: Sustainable organocatalyst for asymmetric Michael reaction

Thermal and morphological characterization of biowaste date palm fiber‐reinforced polybenzoxazine and epoxy composites

Synthesis of cinchona urea polymers and their evaluation as catalyst in the asymmetric reactions

Chiral Polyureas Derived Cinchona Alkaloids: Highly Efficient Bifunctional Organocatalysts for the Asymmetric Michael Addition Reaction

Synthesis and Characterization of New Chiral Polyurea‐Polyurethane Nanocomposites Incorporating Cinchona‐Derived Urea Organocatalysts

Biodegradable Materials-Based Sensors

Studies of Polymer-Polymer Nanocomposite Hybrids Including Chiral Polymer as a New Class of Composite Materials

Carmen-Irena Mitan | Organic Chemistry | Academic Collaboration Catalyst Award

Dr. Carmen-Irena Mitan | Organic Chemistry | Academic Collaboration Catalyst Award

Dr. Carmen-Irena Mitan, “C.D. Nenitescu” Institute of Organic and Supramolecular Chemistry, Romania

Dr. Carmen-Irena Mitan is a prominent researcher at the Institute of Organic and Supramolecular Chemistry “Costin D. Nenitzescu” of the Romanian Academy. With a Ph.D. in Organic Chemistry (2003), her work focuses on synthesizing azasugars and coumarin dyes with biological activity. She has held various academic positions, including postdoctoral researcher at the University of Illinois at Chicago. Dr. Mitan has published extensively, contributing to advancements in organic synthesis and stereochemistry. Her dedication to research and collaboration fosters innovation in the field of chemistry. 📚🌍

Publication Profile

Orcid

Academic Qualifications

Her academic credentials include a Master’s degree in Organic Chemistry (1996-1997) and a Ph.D. in Organic Chemistry (1998-2003), focusing on significant topics such as cycloaddition reactions and the synthesis of azasugars with biological activity. Such a strong academic foundation supports her ability to lead and contribute to collaborative research projects.

Extensive Research Background

Dr. Mitan has been involved in research since 1997, accumulating over two decades of experience in organic chemistry. This longevity in the field highlights her commitment and contribution to scientific inquiry.

Research Interests

Synthesis of azasugars and coumarin dyes, showcasing her expertise in synthetic organic chemistry.

Advanced studies in stereochemistry and metathesis, which could attract collaborations in cutting-edge research areas.

Characterization techniques involving NMR, IR, and MS, demonstrating her proficiency in analytical methods crucial for successful research partnerships

Conclusion

Dr. Carmen-Irena Mitan’s robust academic background, diverse research experience, and expertise in organic chemistry make her an excellent candidate for the Research for Academic Collaboration Catalyst Award. Her dedication to advancing research and fostering collaboration aligns perfectly with the goals of this award.

Publication Top Notes

  1. 3-Sphere approach on 9-O-(10,11-di-O-benzyl-12,14-O-benzylidene-alpha-D-galactopyranosyl)-1-butyl-2,3-O-isopropylidene-1,4-dideoxy-1,4-imino-1-N-dehydro-L-ribitol
    • Authors: Robert Michael Moriarty, Carmen-Irena Mitan, Emerich Bartha, Petru Filip, Rajesh Naithani, Timothy Block
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2024
  2. Java Script programs for calculation of dihedral angles with manifold equations
      • Authors: C.-I. Mitan, E. Bartha, P. Filip, C. Draghici, M.-T. Caproiu, R. M. Moriarty
      • Published in: Science Journal of Chemistry
      • Year: 2024
  3. Mechanistic aspects of the ring-closing enyne metathesis catalyzed by ruthenium-alkylidene complexes
    • Authors: C.-I. Mitan, P. Filip, L. Delaude, V. Dragutan
    • Published in: Journal of Organometallic Chemistry
    • Year: 2024
  4. α,β‐C—C—C Agostic Bonding Interactions in Ruthenacyclobutane and π‐Complex Assisted Olefin Metathesis Catalyzed by Ruthenium‐Alkylidene Complexes
    • Authors: Carmen‐Irena Mitan, Valerian Dragutan, Petru Filip
    • Published in: International Journal of Quantum Chemistry
    • Year: 2024
  5. 3-Sphere Tetrahedral Angles and Phase Angle of the Pseudorotation P[deg] of C1-CH3-α-D Ribitol Iminocyclitol
      • Authors: Petru Filip, Carmen Mitan, Emerich Bartha
      • Published in: Science Journal of Chemistry
      • Year: 2024
  6. 3-Sphere tetrahedral angles and phase angle of the pseudorotation P[deg] of C1-R-alpha-D ribitol
      • Authors: P. Filip, C.-I. Mitan, E. Bartha
      • Published in: Science Journal of Chemistry
      • Year: 2024
  7. 3-Sphere Torsional Angles and Six Membered Ring Conformation
    • Authors: E. Bartha, C.-I. Mitan, P. Filip
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2023
  8. Concerted [2+2] oxidative cycloaddition cycloreversion versus cyclopropanation reaction at M-carbene center
    • Authors: Carmen-Irena Mitan
    • Published in: Science Journal of Chemistry
    • Year: 2023
  9. Configurational and Conformational analysis of 5-deoxy-5-iodo-alpha,beta-D-ribose with 3-Sphere approach
    • Authors: C.-I. Mitan, E. Bartha, A. Hîrtopeanu, C. Stavarache, C. Draghici, M. T. Caproiu, M. Maganu, P. Filip
    • Published in: American Journal of Quantum Chemistry and Molecular Spectroscopy
    • Year: 2023

Tamer El Malah | Organic chemistry | Best Researcher Award

Prof. Tamer El Malah | Organic chemistry | Best Researcher Award

Prof. Tamer El Malah, National Research Centre, Egypt

Prof. Dr. Tamer El Malah is a distinguished chemist, currently a professor at the National Research Centre, Giza, Egypt. He holds a Ph.D. in synthetic organic chemistry from Humboldt-Universität zu Berlin, Germany, where he specialized in hierarchical self-assembly of folded amphiphiles. With over 14 h-index publications, his research focuses on organic synthesis, anticancer compounds, and click chemistry. Dr. El Malah has teaching experience in Germany and Saudi Arabia and is fluent in Arabic, English, and German. He has co-authored numerous papers in leading journals, contributing significantly to the field of chemistry. 🌍🧪📚

 

Publication profile

Academic Background

Prof. El Malah holds a Ph.D. from Humboldt-Universität zu Berlin, one of the top universities in Germany, where he conducted research on hierarchical self-assembly of folded amphiphiles. His education, which includes an M.Sc. and B.Sc. from Ain Shams University, Cairo, reflects a strong foundation in chemistry, with significant exposure to synthetic organic chemistry.

Professional Experience

He is currently a professor at the National Research Centre, Giza, Egypt, with a track record of academic roles including assistant professorships and postdoctoral work in Germany and Saudi Arabia. His teaching experience spans over seven years, which demonstrates his contribution to academic development alongside his research work.

Research Skills and Specializations

Prof. El Malah is an expert in synthetic organic chemistry, with professional skills in the use of advanced analytical techniques such as NMR, HPLC-MS, GPC, and others. His expertise in chemical synthesis and its applications in anticancer research and molecular docking makes his work particularly impactful in both academic and applied sciences.

Conclusion

With extensive contributions to both the academic community and cutting-edge chemical research, particularly in the development of compounds with anticancer and antimicrobial properties, Prof. Tamer El Malah stands out as a deserving candidate for the Best Researcher Award. His strong publication record, impactful research, and international collaboration mark him as a leader in his field.

 

Publication Top Notes  

  • Design, synthesis, and antimicrobial activities of 1, 2, 3-triazole glycoside clickamers – 122 citations (2020) 🦠📅
  • Designing Structural Motifs for Clickamers: Exploiting the 1, 2, 3‐Triazole Moiety to Generate Conformationally Restricted Molecular Architectures – 114 citations (2011) 🧬⚙️
  • Adsorption studies on the removal of COD and BOD from treated sewage using activated carbon prepared from date palm waste – 92 citations (2017) 🌴💧
  • Modulating Large‐Area Self‐Assembly at the Solid–Liquid Interface by pH‐Mediated Conformational Switching – 60 citations (2009) ⚛️🌊
  • A bipyridinium-based polyhydrazone adsorbent that exhibits ultrahigh adsorption capacity for the anionic azo dye, direct blue 71 – 53 citations (2021) 🎨🔬
  • Identification of Novel and Efficacious Chemical Compounds that Disturb Influenza A Virus Entry in vitro – 53 citations (2017) 🦠💉
  • Conformationally pre-organized and pH-responsive flat dendrons: synthesis and self-assembly at the liquid–solid interface – 35 citations (2012) 🧪🧱
  • Anticancer evaluation of tris (triazolyl) triazine derivatives generated via click chemistry – 32 citations (2016) 🧫🧬
  • Modulating the self-assembly of rigid “clicked” dendrimers at the solid–liquid interface by tuning non-covalent interactions between side groups – 31 citations (2011) ⚛️🔗
  • Amphiphilic Folded Dendrimer Discs and Their Thermosensitive Self‐Assembly in Water – 30 citations (2012) 💧🧪