Best Researcher Award
Baki Çiçek
Balıkesir University, Turkey
| Baki Çiçek | |
|---|---|
| Affiliation | Balıkesir University |
| Country | Turkey |
| Scopus ID | 6603923785 |
| Documents | 25 |
| Citations | 269 |
| h-index | 12 |
| Subject Area | Chemistry and Materials Science |
| Event | International Forensic Scientist Awards |
| ORCID | 0000-0003-1257-1188 |
The Best Researcher Award recognizes researchers who demonstrate sustained scholarly productivity, scientific rigor, and meaningful contributions within their disciplines. Baki Çiçek of Balıkesir University has established a research profile centered on chemistry and materials science, with particular emphasis on crown ether chemistry, selective metal ion extraction, computational chemistry, and environmentally conscious synthetic methodologies. His indexed publications, citation record, and continued research activity illustrate a consistent commitment to advancing fundamental and applied chemical sciences.[1]
Contents
Abstract
This article presents an overview of the academic achievements of Baki Çiçek in recognition of consideration for the Best Researcher Award. His scholarly work spans synthetic chemistry, macrocyclic compounds, molecular modeling, selective metal ion recognition, and sustainable chemical technologies. Through peer-reviewed publications and interdisciplinary investigations, his research contributes to improved understanding of molecular interactions, extraction systems, and functional materials relevant to environmental and analytical chemistry.[2]
Keywords
- Crown ethers
- Materials chemistry
- Metal ion extraction
- Computational chemistry
- Green synthesis
Introduction
Research in modern chemistry increasingly integrates experimental synthesis with computational analysis to design efficient functional materials and environmentally responsible processes. Baki Çiçek has contributed to this evolving field through investigations involving macrocyclic ligands, antioxidant compounds, molecular interaction studies, and selective extraction systems. His publications demonstrate an emphasis on scientifically validated methodologies and reproducible laboratory investigations that support both theoretical understanding and practical applications.[3]
Research Profile
According to available indexed records, the researcher has authored 25 Scopus-indexed publications with 269 citations and an h-index of 12. His research interests include crown ether synthesis, Lewis acid-base interactions, computational modeling, extraction chemistry, antioxidant evaluation, DNA protection studies, and functional materials. The integration of theoretical calculations with laboratory validation reflects a balanced research methodology that contributes to chemistry and materials science.[1]
Research Contributions
- Development of crown ether derivatives for selective removal of heavy metal ions from aqueous systems.
- Studies integrating theoretical chemistry with experimental synthesis and characterization.
- Research addressing environmentally friendly synthetic strategies and molecular recognition.
- Application of computational approaches for structural and electronic property analysis.
Publications
Recent publications include studies in Chemical Papers, Current Organic Chemistry, and Russian Journal of Physical Chemistry B, focusing on selective hard metal ion removal, eco-friendly synthesis of acetoguanamine crown ethers, antioxidant properties, DNA damage protection, and extraction behavior of functionalized thia-crown ethers. Additional publications investigate computational analyses of metal complexation and amino acid ester structures using modern in silico techniques.[4]
Research Impact
The researcher’s citation metrics indicate that his publications have received measurable scholarly attention within chemistry and materials science. His work supports advancements in selective separation technologies, molecular design, and sustainable chemical research while providing reference points for subsequent investigations involving macrocyclic compounds and computational chemistry.[5]
Award Suitability
Based on available publication records, citation indicators, and sustained scientific activity, Baki Çiçek demonstrates characteristics commonly associated with candidates considered for research recognition. His interdisciplinary investigations, publication consistency, and contributions to chemistry and materials science align with the objectives of the International Forensic Scientist Awards in recognizing research excellence through objective scholarly accomplishments.[5]
Conclusion
Baki Çiçek has developed a research portfolio emphasizing chemical innovation, computational investigation, and environmentally responsible synthesis. His publication record, citation performance, and continuing research contributions reflect sustained engagement in chemistry and materials science. These scholarly achievements provide a solid foundation for academic recognition through the Best Researcher Award.[1]
External Links
References
- Elsevier. (n.d.). Scopus author details: Baki Çiçek, Author ID 6603923785.
https://www.scopus.com/authid/detail.uri?authorId=6603923785 - Çiçek, B. (2026). Selective removal of hard metal ions from water using benzo-crown ether derivatives. Chemical Papers.
https://doi.org/10.1007/s11696-026-05287-2 - Çiçek, B. (2026). Eco-Friendly Synthesis of Acetoguanamine Crown Ethers. Current Organic Chemistry.
https://doi.org/10.2174/0113852728372229250507120528 - Çiçek, B. (2026). Experimental and Theoretical Studies on Functionalized Thia-Crown Ethers. Russian Journal of Physical Chemistry B.
https://doi.org/10.1134/S1990793125701763 - Çiçek, B. (2024). In Silico Investigation of Iron(III) Complexation Properties.
https://doi.org/10.35414/akufemubid.1472359
