Mustafa Ceylan | Chemistry | Best Researcher Award

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Prof Dr. Mustafa Ceylan | Chemistry | Best Researcher Award

Prof Dr. Mustafa Ceylan, Tokat Gaziosmanpsa Üniversity, Turkey

Prof. Dr. Mustafa Ceylan is a distinguished professor at Gaziosmanpaşa University’s Faculty of Science and Letters, Chemistry Department. His expertise spans organic chemistry, particularly in heterocyclic compounds, magnetic resonance spectroscopy, and bioorganic chemistry. With over three decades of academic experience, Dr. Ceylan has contributed extensively to scientific research, focusing on organic synthesis, molecular docking studies, and the development of compounds for treating diseases like Alzheimer’s and glaucoma. He has co-authored numerous publications, showcasing his contributions to both national and international scientific communities. Dr. Ceylan is proficient in English and serves as a vice dean. 🧪📚🌐

 

Publication Profile

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Academic and Professional Background

Prof. Ceylan has served in various academic roles at Gaziosmanpaşa University, starting as a Research Assistant in 1988, later becoming an Assistant Professor, Associate Professor, and Professor. His extensive experience spans more than 30 years, with leadership roles like Vice Dean.

Research Contributions

Prof. Ceylan has published numerous impactful papers, notably in organosynthetic chemistry, enzyme inhibition studies, and biological activity investigations. His work on aldose reductase inhibitors and molecular docking studies highlights his contribution to therapeutic developments for diseases like Alzheimer’s and glaucoma. Notably, his collaborations extend to interdisciplinary studies, enriching his scientific portfolio.

Conclusion

Prof. Ceylan’s academic prominence, significant contributions to organic chemistry, and a robust portfolio of impactful publications, he is highly deserving of the “Best Researcher Award.” His innovations in bioorganic compounds and collaborative research output stand as a testament to his excellence in the field.

 

Publication Top Notes  

  • Siklohepta-1, 2-dien-1-ilbenzen’in 1-(2-iyodo-, klorosiklohepta-1-en-1-il) benzen ve 1-(2-iyodo-, klorosiklohepta-2-en-1-il) benzen’den sentezi ve DBI ile yakalanma – Y BUDAK, M GÜRDERE, U Murat, H GEZEGEN, E FINDIK, M CEYLAN | 🧪 | Cited by 1 | 2024
  • 1-VE 2-FENİLSİKLOHEPTATRİEN’İN BİSİKLO [3.2.0] HEPT-2-EN-6-ON’DAN SENTEZİ, YÜKSELTGENME VE MALEİK ANHİDRİT İLE KATILMA REAKSİYONLARI – E Fındık, M Ceylan, MB Güredere, C Kazaz | 🧬
  • 1, 3-Diaryl Triazenes Incorporating Disulfonamides Show Both Antiproliferative Activity and Effective Inhibition of Tumor-associated Carbonic Anhydrases IX and XII – N Lolak, S Akocak, A Petreni, Y Budak, E Bozgeyik, MB Gurdere, M Ceylan | 🧫  | 2024
  • 1′, 4 (5H)-dion Türevlerinin Sentezi ve Karakterizasyonu – M Ceylan, D Ergüntürk, B Gürbüzlü, MK Sarıkaya, B Şahin, H Gezegen | 🧪
  • Histological changes in the gills, livers and muscles of Oreochromis niloticus fed with steroid, natural hormone, and pawpaw seed-based diets – H Baytaşoğlu, AM Gözler, U Khan, K Seyhan, Z Tosunoğlu, T Ceyhan, M Ceylan | 🐟 | Cited by 1 | 1921
  • 2-((1S, 2S)-2-((E)-Stiril) siklopent-3-enil) benzo[d] tiyazol Türevlerinin Sentezi ve Anti-kanser Aktiviteleri – E Fındık, Ş Yağlıoğlu, M Üremiş, Z Esen, MK Sarıkaya, M Ceylan | 🧬
  • 3, 3′-(1, 4-Fenilen) bis (1-arilprop-2-en-1-one) Türevlerinin Sentezi ve Antiprolifeatif Aktivitelerinin İncelenmesi – H Erdoğan, E Kamo, ON Aslan, AŞ Yağlıoğlu, M Ceylan, Y Budak | 🧫
  • 4, 7-metanoisoindol-1, 3 (2H)-dion Türevlerinin Sentezi ve Biyolojik Aktivite Uygulamaları – N DÜRÜ, MB GÜRDERE, K ÖZCAN, O ÖZBEK, AD ÇAKIR, Y BUDAK, M Ceylan | 🔬
  • 5.5-dibrono-bisiklo [2.1.0, 1.4] pentan ve 2-bromo-3-trimetilsilil siklohekzenin sentezi ve reaksiyonları – M Ceylan | 🧪 | Cited by 1 | 1989
  • A Neuromotor Model of Handwriting Generation: Highlighting The Diagnostic Criteria in Essential Tremor Disease via Method of Shape Analysis – ZZ Bayazıt, AR Sonkaya, G McDoerfer, J Bell, ÜÇ Şavk, Hİ Ergenç, M Ceylan | 🧠

Irem kulu | Organic Chemistry | Best Researcher Award

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Assoc Prof Dr. Irem kulu | Organic Chemistry | Best Researcher Award

Assoc Prof Dr. Irem kulu, Gebze Technical University, Turkey

Assoc. Prof. Dr. İrem Kulu is an accomplished organic chemist with a PhD from Yıldız Technical University, Turkey. Her expertise lies in C-C and C-N bond formation reactions of cyclic systems. With a diverse background including roles at Novartis and UMASS Amherst, she’s currently an Associate Professor at Gebze Technical University. Her research spans various projects, notably focusing on drug synthesis and bioorthogonal nanozymes. As a project coordinator and researcher, she contributes significantly to TÜBİTAK-funded initiatives. 🧪🔬 Passionate about synthesizing novel compounds, her work holds promise for advancing medicinal chemistry.

Publication Profile:

Scopus

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Education:

Dr. İrem Kulu is a dedicated scholar in organic chemistry, graduating from Yıldız Technical University in Turkey. She completed her Bachelor of Science, Master of Science, and PhD degrees from the Department of Organic Chemistry at the same institution. Her research journey began with her Bachelor’s thesis focusing on the synthesis of organic compounds. In her Master’s thesis, she explored Domino Heck type Hydroarylation reactions and new isoindolines. For her doctoral work, she delved into C-C and C-N bond formation reactions of cyclic systems. Under the guidance of Prof. Dr. Zehra Nüket Öcal Sunguroğlu, she demonstrated a keen interest in advancing organic synthesis. 🎓🔬

 

Experience :

Dr. İrem Kulu’s career spans diverse roles in academia and industry, showcasing her expertise in organic chemistry. She began as a post-doctoral researcher at Gebze Technical University, contributing to TÜBİTAK projects focused on hybrid materials synthesis. Transitioning to industry, she served as a Synthesis Chemist at Novartis, specializing in API synthesis. Her academic journey continued as an Assistant Professor at Gebze Technical University, where she eventually ascended to Associate Professor. Notably, she pursued post-doctoral research at UMASS Amherst, delving into bioorthogonal nanozymes. Her multifaceted experience reflects a commitment to advancing chemical science across academia and industry. 🔬👩‍🔬

Research Focus:

Dr. İrem Kulu’s research primarily focuses on organic synthesis and medicinal chemistry, as evidenced by her extensive publication record. She has contributed significantly to the development of novel compounds with potential pharmacological applications, including antidepressants, antimicrobials, and anticancer agents. Her work spans various synthetic methodologies, such as Domino-Heck reactions, reductive Heck reactions, and [3+2] cycloadditions, aiming to create diverse molecular architectures. Additionally, she explores the physicochemical properties and biological activities of synthesized compounds, particularly their interactions with metal ions and their potential as photosensitizers. Dr. Kulu’s research embodies a quest for innovative solutions in drug discovery and development. 💊🔬

Publication Top Notes:

  1. Domino‐Heck Reactions of Carba‐ and Oxabicyclic, Unsaturated Dicarboximides: Synthesis of Aryl‐Substituted, Bridged Perhydroisoindole Derivatives 📚 Cited by: 25 🗓️ Year: 2009
  2. The synthesis of epiboxidine and related analogues as potential pharmacological agents 📚 Cited by: 20 🗓️ Year: 2011
  3. A multidisciplinary approach to coronavirus disease (COVID-19) 📚 Cited by: 16 🗓️ Year: 2021
  4. Effects of metal ion in cationic Pd (II) and Ni (II) phthalocyanines on physicochemical and photodynamic inactivation properties📚 Cited by: 15 🗓️ Year: 2022
  5. Design, synthesis and biological evaluation of 8-aminoquinoline-1, 2, 3-triazole hybrid derivatives as potential antimicrobial agents📚 Cited by: 14 🗓️ Year: 2022
  6. Reductive Heck Reactions and [3+ 2] Cycloadditions of Unsaturated N, N’-Bistricyclic Imides
  7. Evaluation of phytochemical content, antioxidant, antimicrobial activity and DNA cleavage effect of endemic Linaria corifolia Desf. (Plantaginaceae)
  8. Synthesis of arylated norbornyl amino acid esters
  9. Hybrid materials based on pyrene-substituted metallo phthalocyanines as sensing layers for ammonia detection: Effect of the number of pyrene substituents
  10. Photodynamic Inactivation of Antibiotic-Resistant and Sensitive Aeromonas hydrophila with Peripheral Pd(II)- vs. Zn(II)-Phthalocyanines