Liliya Faizullina | Organic Chemistry |Best Researcher Award

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Assoc. Prof. Dr. Liliya Faizullina | Organic Chemistry | Best Researcher Award

 Researcher | Ufa Institute of Chemistry | Russia

Faizullina L. Kh is a distinguished researcher in synthetic organic chemistry, recognized for her sustained contributions to the development of chiral building blocks, advanced reaction methodologies, and structurally intricate organic frameworks. With a scholarly record comprising 48 publications, 180 citations, and an h-index of 6, she has established a solid research footprint in asymmetric synthesis and the strategic transformation of bio-derived molecular precursors. Her work extensively explores the reactivity and synthetic versatility of levoglucosenone-based intermediates, including Michael adducts, Diels Alder products, and spirocyclic derivatives, which serve as crucial synthons for the construction of stereochemically rich and biologically relevant molecules. Notable recent studies include the preparation of chiral spirocyclobutanones, investigations into Cyrene as a chiral synthon, synthetic approaches toward acetogenin-type structures, and the design of key intermediates used in the assembly of loganin-related frameworks. These contributions reflect her strong command over stereochemical control, mechanistic interpretation, and multi-step synthetic planning, positioning her as an influential figure in the field. Beyond structural synthesis, her research frequently incorporates the evaluation of the biological activity of synthesized compounds, highlighting a multidisciplinary perspective that bridges organic chemistry with potential pharmacological applications. With collaborations involving more than 40 co-authors, her work demonstrates a commitment to interdisciplinary advancement and collective scientific inquiry. Her research also emphasizes sustainability through the adoption of bio-based starting materials and greener synthetic approaches, contributing to environmentally responsible chemical development. By enhancing access to complex chiral molecules and enabling new directions in medicinally relevant scaffold design, her work carries both scientific and societal significance. Faizullina L. Kh continues to expand the frontiers of modern synthetic organic chemistry through rigorous scholarship, collaborative engagement, and a sustained dedication to innovation in molecular synthesis.

Khalilova, Y. A., & Faizullina, L. Kh. (2025). Recent applications of Cyrene as a chiral synthon. Organic & Biomolecular Chemistry.

Akhmetdinova, N., Biktagirov, I., & Faizullina, L. Kh. (2025, November 6). Transformation of the cyclohexane ring to the cyclopentane fragment of biologically active compounds. Beilstein Journal of Organic Chemistry.

Galimova, Y. S., Salikhov, Sh. M., & Faizullina, L. Kh. (2025, September). Michael adduct of levoglucosenone and α-carboethoxycyclododecanone in the synthesis of a chiral spirocyclobutanone. Russian Journal of General Chemistry.

Galimova, Y. S., Kupova, O. Yu., Salikhov, Sh. M., & Faizullina, L. Kh. (2025, April). Approaches to the synthesis of acetogenins based on the Michael adducts of levoglucosenone and α-carboethoxycyclododecanone and analysis of their biological activity. Russian Journal of General Chemistry.

Khalilova, Y. A., Karamisheva, L. Sh., Salikhov, Sh. M., Galimova, Y. S., & Faizullina, L. Kh. (2024, August 13). Synthesis of N-alkyl-substituted aziridines and oxazolidine based on levoglucosenone derivatives.

 

Elena Ivleva | Organic Chemistry | Editorial Board Member

Published on by Chemical Scientist

Dr. Elena Ivleva | Organic Chemistry | Editorial Board Member

Senior Researcher | Samara State Technical University | Russia

Elena A. Ivleva is an accomplished researcher in organic and general chemistry, widely recognized for her contributions to the synthesis, transformation, and reactivity of cage compounds, polycarboxylic frameworks, and structurally complex adamantane derivatives. With over 62 peer-reviewed publications and  431 citations, her work reflects a sustained impact on advancing modern synthetic methodology and understanding the mechanistic behavior of multifunctional organic systems. Her research spans oxidative reaction mechanisms, mixed-acid systems, multistep carboxylation–oxidation pathways, and the development of polycarboxylic aromatic and aliphatic structures with potential relevance to materials science and specialized chemical applications. Dr. Ivleva has collaborated with over 120 co-authors, demonstrating strong interdisciplinary engagement and a commitment to collaborative scientific development across various branches of chemistry. Her widely referenced publications include significant contributions to contemporary organic chemistry education, research achievements, and methodological innovations that continue to guide best practices in synthetic design, mechanistic interpretation, and the construction of high-value chemical frameworks. With an h-index of 11, her scholarly influence is evident in both academic and applied contexts, supported by a consistent record of impactful research output. Beyond academic contributions, her work holds broader societal and industrial importance by informing environmentally conscious chemical transformations, enhancing molecular design strategies, and contributing to the evolution of complex organic materials. Dr. Ivleva’s dedication to scientific rigor, innovation, and interdisciplinary collaboration positions her as a respected figure within the global chemical science community, continually advancing the frontiers of organic synthesis and contributing to the development of sustainable, efficient, and analytically sound chemical processes.

Profiles : Scopus

Featured Publications

  1. Ivleva, E. A., Zvereva, D. V., & Klimochkin, Y. N. (2025). One-pot multistep carboxylation–oxidation of cage compounds. Tetrahedron.

  2. Shiryaev, V. A., Ivleva, E. A., Zaborskaya, M. S., Tkachenko, I. M., Osyanin, V. A., & Klimochkin, Y. N. (2024). Molecular dynamics simulation of SARS-CoV-2 E ion channel: the study of lone protein and its conformational changes in complex with potential cage inhibitors. Current Computer-Aided Drug Design. Advance online publication.

  3. Ivleva, E. A., Zvereva, D. V., & Klimochkin, Y. N. (2024). New features of the H₂SO₄–HNO₃ system in the synthesis of adamantanecarboxylic acids. Russian Journal of General Chemistry.

Dr. Elena Ivleva advances modern organic and analytical chemistry through innovative synthesis strategies and chemical transformations that deepen scientific understanding and enable high-value chemical applications. Her research strengthens global innovation in materials, pharmaceuticals, and sustainable chemical technologies, contributing directly to societal and industrial progress.