Ulises Martinez Ortega | Medicinal Chemistry | Young Scientist Award

Published on by Academic Awards

Dr. Ulises Martinez Ortega | Medicinal Chemistry | Young Scientist Award

Professor | National Autonomous University of Mexico | Mexico

Dr. Ulises Martinez-Ortega’s research focuses on computational chemistry, molecular modeling, and drug design, particularly targeting cancer-related pathways such as EGFR inhibition. With 3 publications, 11 citations across 11 documents, and an h-index of 2, his work contributes to the development of quinazoline-based compounds with therapeutic potential. He applies advanced computational techniques, including free energy calculations, to optimize molecular interactions. His research supports the discovery of efficient, targeted treatments and advances understanding in medicinal chemistry and pharmaceutical development.

Citation Metrics (Scopus)

12

10

8

6

4

2

0

Citations
11

Documents
3

h-index
2

        🟦 Citations    🟥 Documents    🟩 h-index


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Featured Publications

Alchemical Free Energy-Based Optimization of Quinazoline Derivatives as Potent EGFR Inhibitors with Cytotoxic Activity
– Bioorganic and Medicinal Chemistry, 2025

Computational Design and Evaluation of Quinazoline-Based Compounds for Targeted Cancer Therapy
– Medicinal Chemistry Research

Molecular Modeling and Drug Design Approaches for EGFR Inhibitors in Cancer Treatment
– Journal of Molecular Modeling

Dieter E. Kaufmann | Medicinal Chemistry | Best Researcher Award

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Prof. Dr. Dieter E. Kaufmann | Medicinal Chemistry | Best Researcher Award

Technical University of Clausthal | Germany

Prof. Dr. Dieter E. Kaufmann is a distinguished organic chemist whose research bridges fundamental synthetic chemistry and applied materials science. His work focuses on the design and synthesis of heterocyclic compounds, polyhalogenated nitrobutadienes, and functionalized benzoates with applications in medicinal chemistry, sustainable materials, and energy systems. He has contributed extensively to the chemical modification of renewable resources, including wood, for enhanced durability, hydrophobicity, and flame retardancy, as well as to the development of organic redox flow batteries. With over 128 publications, 3,676 citations, and an h-index of 30, his research demonstrates high scientific impact, innovation, and interdisciplinary collaboration across organic synthesis, catalysis, and green chemistry.

Profile: Scopus | Orcid 

Featured Publications

  • Kaufmann, D. E., et al. (2025). Synthesis and microbiological activities of 3-nitropyrazolo-[1,5-d][1,2,4]triazin-7(6H)-ones and derivatives. Molecules, 2025.

  • Kaufmann, D. E., et al. (2025). Synthesis, characterization and application of thioindigosulfonic acids as electrolytes in an aqueous organic redox flow battery. ChemElectroChem, 2025.

  • Kaufmann, D. E., et al. (2023). A new way to 2,3,4-trisubstituted benzo[h]quinolines: Synthesis, consecutive reactions and cellular activities. Molecules, 2023.

  • Kaufmann, D. E., et al. (2023). Chemistry of polyhalogenated nitrobutadienes, 19: Synthesis of new types of compounds modulating the biological activity of Type I interferons (IFN-I). Arkivoc, 2023.

  • Kaufmann, D. E., et al. (2022). Intramolecular phosphine-promoted Knoevenagel based redox-reaction. Molecules, 2022.

  • Kaufmann, D. E., et al. (2022). Chemistry of polyhalogenated nitrobutadienes, 17: Efficient synthesis of persubstituted chloroquinolinyl-1H-pyrazoles and evaluation of their antimalarial, anti-SARS-CoV-2, antibacterial, and cytotoxic activities. Beilstein Journal of Organic Chemistry, 2022.

  • Kaufmann, D. E., et al. (2021). Surface tuning of wood via covalent modification of its lignocellulosic biopolymers with substituted benzoates: A study on reactivity, efficiency, and durability. ACS Omega, 2021.

  • Kaufmann, D. E., et al. (2021). Durable modification of wood by benzoylation—Proof of covalent bonding by solution state NMR and DOSY NMR quick-test. Polymers, 2021.

  • Kaufmann, D. E., et al. (2021). Chemical improvement of surfaces. Part 6: Enhanced flame retardancy of Scots pine sapwood by covalent modification with phosphorus and boron functionalized benzoates. Holzforschung, 2021.

  • Kaufmann, D. E., et al. (2021). Surface tuning of wood through chemical modification for enhanced performance and stability. Holzforschung, 2021.