Dr Rajendra Patil | Chemistry | Excellence in Research Award

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Dr Rajendra Patil | Chemistry | Excellence in Research Award

Assistant Professor at M H Shinde Mahavidyalaya, Tisangi, India

Dr. Rajendra Pandurang Patil, a distinguished academician and gold-medalist 🥇 from GATE, is currently serving as an Assistant Professor of Chemistry at M. H. Shinde Mahavidyalaya, Tisangi, Kolhapur, he has consistently showcased brilliance from undergraduate to doctoral levels, achieving distinction in both B.Sc. and M.Sc., and earning his Ph.D. in 2012 with a focus on “Synthesis, Characterization and Applications of Mixed-Metal Oxides.” With 15 years of research and 13 years of teaching experience 📚, Dr. Patil has cultivated an impressive academic legacy. His contributions in advanced materials chemistry are echoed through 109 international publications and 4 granted patents 🧪. A stalwart in nanotechnology and energy materials, his scholarly excellence is reflected in a Google Scholar h-index of 22 and over 1700 citations 📈. A dedicated educator, innovator, and scientist, Dr. Patil continues to push the frontiers of applied and fundamental chemistry.

Professional Profile 

🎓 Education

Dr. Rajendra Patil’s academic journey is a remarkable story of perseverance and achievement 🏅. Starting with a first-class distinction in B.Sc. and M.Sc. in Inorganic Chemistry  from Shivaji University, Kolhapur, he went on to secure an exceptional GATE score of 89.66 at IIT Guwahati. His passion for material science drove him to complete his Ph.D. in 2012 under Prof. P. P. Hankare, focusing on mixed-metal oxides—vital compounds in catalysis and energy systems. Alongside these degrees, Dr. Patil also holds a certification in MS-CIT, showcasing his digital proficiency 🖥️. His early academic projects, such as synthesizing PbSe thin films, laid the groundwork for a robust research career. The depth and continuity in his academic pursuits have positioned him as a thought leader in material and nanoscience, blending classical chemical principles with modern applications 🌡️.

👨‍🏫 Professional Experience

Dr. Patil brings over 13 years of dedicated teaching experience as a permanent Assistant Professor since March 2013 📘. Prior to this, he honed his analytical and practical skills during his 2-year tenure as a laboratory chemist in the industrial sector 🧪. His research journey began as a Junior Research Fellow on two major UGC and DAE-BRNS projects from 2008 to 2012, focusing on functional oxides and nanomaterials. With a comprehensive background that bridges academic theory and industrial practice, Dr. Patil’s pedagogy is enriched by real-world relevance and cutting-edge innovation. His commitment to students and research has made him an integral figure in the chemistry community of Kolhapur. Whether guiding undergraduates or contributing to national seminars, his influence resonates across laboratories, classrooms, and scholarly platforms 📖. His interdisciplinary approach makes him a bridge between classical chemistry education and modern research development 🌍.

🔍 Research Interests

Dr. Patil’s research specialization lies in the dynamic fields of ferrites, mixed-metal oxides, and their futuristic applications 🚀. His work spans nanocomposites used in photocatalysis, supercapacitor development, and magnetic hyperthermia—a promising therapy for cancer treatment. With a clear emphasis on applied material science, his innovations address global challenges in renewable energy and health. Notably, his patents reflect breakthroughs in nanoparticle-based cancer diagnostics, surface-functionalized ferrites for hyperthermia, and composite materials for energy storage. These fields align with global priorities in sustainable development and nanotechnology 🔋🧬. His publications—over 100 in international journals—demonstrate the scholarly impact and real-world relevance of his research. Dr. Patil is also a prolific presenter, with over 40 seminars to his name, continuously advocating for the integration of chemistry into practical, life-enhancing solutions 🌐. His work is a fusion of scientific curiosity and societal need, driven by precision, ethics, and innovation.

🏅 Awards and Honors

Among Dr. Patil’s many accolades, the GATE Gold Medal 🎖️ stands out as a testament to his academic excellence. His receipt of four granted patents speaks volumes about his contributions to chemical innovation and real-world applications. With over 1700 citations and a Scopus h-index of 22, Dr. Patil has earned significant recognition in the global research community 📊. He has been instrumental in multiple government-funded research projects and has continuously engaged with national and international seminars. His work in magnetic nanomaterials for cancer therapy and sustainable energy solutions marks him as a pioneering figure in applied chemistry. These achievements are not only a recognition of his research output but also a reflection of his dedication to advancing science in meaningful and impactful ways. His honors affirm his position as one of the emerging leaders in the field of material science and nanotechnology 🔬.

📚 Publications Top Note 

1. Title: Enhanced photocatalytic degradation of methyl red and thymol blue using titania–alumina–zinc ferrite nanocomposite
Authors: PP Hankare, RP Patil, AV Jadhav, KM Garadkar, R Sasikala
Year: 2011
Citations: 213
Source: Applied Catalysis B: Environmental
Summary: This study focuses on the photocatalytic degradation of organic dyes using a composite nanomaterial made from titania, alumina, and zinc ferrite. It demonstrates effective treatment of water pollutants like methyl red and thymol blue under light irradiation.

2. Title: Magnetic and dielectric properties of nanophase manganese-substituted lithium ferrite
Authors: PP Hankare, RP Patil, UB Sankpal, SD Jadhav, IS Mulla, KM Jadhav, and others
Year: 2009
Citations: 123
Source: Journal of Magnetism and Magnetic Materials
Summary: This research explores the magnetic and dielectric behavior of lithium ferrite materials that are substituted with manganese. The study highlights their potential in applications involving magnetic storage and high-frequency devices.

3. Title: Gas sensing properties of magnesium ferrite prepared by co-precipitation method
Authors: PP Hankare, SD Jadhav, UB Sankpal, RP Patil, R Sasikala, IS Mulla
Year: 2009
Citations: 113
Source: Journal of Alloys and Compounds
Summary: The paper investigates the gas sensing performance of magnesium ferrite nanoparticles synthesized through the co-precipitation method. It demonstrates sensitivity to specific gases, indicating usefulness in sensor technology.

4. Title: Effect of sintering on photocatalytic degradation of methyl orange using zinc ferrite
Authors: SD Jadhav, PP Hankare, RP Patil, R Sasikala
Year: 2011
Citations: 90
Source: Materials Letters
Summary: This work analyzes how sintering temperature influences the photocatalytic degradation activity of zinc ferrite materials. It focuses on removing the dye methyl orange from wastewater, offering insights for optimizing material processing.

5. Title: Synthesis, structural and magnetic properties of different metal ion substituted nanocrystalline zinc ferrite
Authors: RP Patil, SD Delekar, DR Mane, PP Hankare
Year: 2013
Citations: 86
Source: Results in Physics
Summary: This study synthesizes and characterizes zinc ferrite nanoparticles substituted with various metal ions. The research evaluates their structural and magnetic properties, contributing to the understanding of ferrite-based nanomaterials.

6. Title: Investigation of structural and magnetic properties of nanocrystalline manganese substituted lithium ferrites
Authors: PP Hankare, RP Patil, UB Sankpal, SD Jadhav, PD Lokhande, and others
Year: 2009
Citations: 85
Source: Journal of Solid State Chemistry
Summary: This research explores the structural and magnetic characteristics of lithium ferrite materials substituted with manganese, aiming at enhancing their magnetic performance for advanced applications.

7. Title: Magnetic and dielectric studies of nanocrystalline zinc substituted Cu–Mn ferrites
Authors: PP Hankare, UB Sankpal, RP Patil, AV Jadhav, KM Garadkar, and others
Year: 2011
Citations: 83
Source: Journal of Magnetism and Magnetic Materials
Summary: This study presents a detailed investigation into the magnetic and dielectric properties of Cu–Mn ferrites modified with zinc, suggesting possible use in electronic devices.

8. Title: Synthesis and characterization of CoCrₓFe₂−ₓO₄ nanoparticles
Authors: PP Hankare, UB Sankpal, RP Patil, IS Mulla, PD Lokhande, NS Gajbhiye
Year: 2009
Citations: 66
Source: Journal of Alloys and Compounds
Summary: The article reports on the synthesis and structural analysis of cobalt-chromium substituted spinel ferrite nanoparticles, contributing to materials design for magnetic and catalytic purposes.

9. Title: Effect of sintering temperature on structural, magnetic properties of lithium chromium ferrite
Authors: RP Patil, PP Hankare, KM Garadkar, R Sasikala
Year: 2012
Citations: 65
Source: Journal of Alloys and Compounds
Summary: This work investigates how sintering temperature influences the microstructure and magnetic properties of lithium chromium ferrites, guiding optimal processing conditions.

10. Title: Synthesis, dielectric behavior and impedance measurement studies of Cr-substituted Zn–Mn ferrites
Authors: PP Hankare, RP Patil, KM Garadkar, R Sasikala, BK Chougule
Year: 2011
Citations: 65
Source: Materials Research Bulletin
Summary: The study examines the dielectric and impedance properties of chromium-substituted Zn–Mn ferrites, providing insights for their potential use in electronics and sensors.

✅ Conclusion

In summation, Dr. Rajendra Pandurang Patil is a well-rounded academician whose journey from a student in Kolhapur to a nationally recognized researcher exemplifies passion and persistence 💼. With a rich background in education, extensive research output, practical industrial experience, and pioneering contributions to nanoscience, he stands out as a deserving candidate for any Best Researcher Award 🏆. His intellectual curiosity, combined with a deep commitment to educational excellence and real-world application, positions him as a beacon of inspiration for aspiring scientists. Whether in the lab, classroom, or scholarly community, Dr. Patil embodies the values of innovation, integrity, and impact. As chemistry advances into new frontiers, his work continues to resonate—fueling progress and shaping the future of sustainable science 🌱🔬.

Rihab Chhoud | Chemistry | Best Researcher Award

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Dr. Rihab Chhoud | Chemistry | Best Researcher Award

Postdoctoral Researcher at Faculty of Pharmacy of Monastir, Tunisia

Dr. Rihab Chhoud 🇹🇳 is a dynamic Tunisian chemist specializing in the phytochemical and pharmacological exploration of bioactive compounds from oasis fruit trees 🌴. With a Ph.D. in Chemistry from the Faculty of Sciences of Monastir (2022), her work integrates organic synthesis, biomolecule characterization, and drug discovery. A seasoned researcher with international exposure, Dr. Chhoud conducted significant doctoral internships in Italy 🇮🇹 and Spain 🇪🇸, enriching her scientific depth. Her postdoctoral research focuses on green extraction of oleuropein from organic olive leaves 🌿 for nutraceutical applications. She has authored impactful publications in journals like International Journal of Biological Macromolecules and Chemical Biodiversity, targeting antidiabetic, antiherpetic, and antioxidant therapies. Passionate about soft skills and academic writing, she also actively trains students in chemistry-related disciplines. Dr. Chhoud exemplifies the new wave of innovative, globally-aware women scientists making substantial contributions to sustainable health sciences 🌍👩‍🔬.

Professional Profile 

🎓 Education

Dr. Rihab Chhoud’s academic journey began with a fundamental license in Chemistry from Gabes University 🎓. She pursued a Research Master’s in Organic Synthesis at Monastir, delving into the biomolecular richness of Tunisian date seeds 🌰. Her Ph.D. (2017–2022) at the Laboratory of Advanced Materials and Interfaces (LIMA) showcased her multidisciplinary strengths—merging chemistry, pharmacology, and bioactivity profiling. Supervised by Prof. Hatem Majdoub, her doctoral research examined biologically active compounds from oasis fruit trees, blending traditional knowledge with modern analytical tools. Additional certifications in academic writing, soft skills, and molecular docking reflect her commitment to holistic scientific development 📚. Her global perspective was enhanced by internships in Italy and Spain, sharpening her technical fluency and international communication 🌐. From high school distinctions to postgraduate excellence, Dr. Chhoud’s educational background is rooted in resilience, curiosity, and consistent academic merit. Her learning path is a testament to dedication, purpose, and interdisciplinary vision 🌟.

🧪 Professional Experience

Dr. Chhoud has cultivated rich professional experience in academia and international research environments 👩‍🏫. As a postdoctoral researcher at the Faculty of Pharmacy, Monastir (2025–present), she’s engaged in green chemistry innovations involving oleuropein extraction from organic olive leaves 🌿. She previously served as a temporary teacher, delivering practical chemistry lessons ranging from biochemistry to chromatographic techniques. Her career includes prestigious doctoral research stays in Spain and Italy, exploring bioactive substances and their therapeutic potential under expert mentorship 🇪🇸🇮🇹. From 2014 to 2023, she consistently pursued opportunities to refine her scientific writing, English proficiency, and lab methodology through summer schools, soft-skill workshops, and publishing programs 📖. Her ability to transition seamlessly between labs, classrooms, and international forums marks her as a versatile and proactive professional. Dr. Chhoud’s career pathway embodies a globalized, interdisciplinary, and education-oriented model, empowering her to address complex chemical and biomedical challenges with clarity and creativity 🧬.

🧠 Research Interests

Dr. Chhoud’s research interests lie at the intersection of natural product chemistry, green extraction technologies, and biomedical applications 🌿💊. Her investigations have centered on isolating and characterizing polyphenols, polysaccharides, and fatty substances from Tunisian plant sources, particularly date palms and olive leaves 🌴. She’s deeply invested in understanding the pharmacological properties of these compounds, such as antidiabetic, wound-healing, and antiviral effects. Her advanced techniques include UPLC-MS analysis, molecular docking, and structure–activity relationship (SAR) studies 🔬. Currently, her work on oleuropein optimization for nutraceuticals aligns with global trends in sustainable healthcare and functional foods. Dr. Chhoud is also intrigued by biopolymers and their enzymatic behaviors in disease models such as Parkinson’s 🧬. Whether studying enzyme inhibition or plasma antioxidant levels, her aim is to extract value from nature using chemistry, for practical therapeutic benefit. Her research bridges tradition and innovation—transforming indigenous flora into global health solutions 🌍💡.

🏆 Awards and Honors

While Dr. Chhoud’s formal accolades are still emerging, her academic path and global participation reflect significant recognition and promise 🎖️. She was competitively selected for doctoral internships in top labs in Naples and Granada, funded by the Tunisian Ministry of Higher Education and ERASMUS+, respectively 🌍. She has also benefited from advanced training in scientific writing, academic English, soft skills, and computational drug design—showcasing her proactive pursuit of excellence beyond standard curricula 🏅. Her peer-reviewed publications in internationally indexed journals further demonstrate her contributions to cutting-edge research. Participating in events like International Day of Women and Girls in Science underscores her commitment to STEM equity 👩‍🔬✨. Dr. Chhoud’s work represents the intellectual resilience and innovation of North African women in science, and her continuous self-development initiatives signal future accolades at national and international levels 🥇📚.

📚 Publications Top Note 

1. Structural characterization and functional evaluation of polysaccharides extracted from the heart of date palm (Phoenix dactylifera L.): Insights into α-amylase inhibition and antidiabetic potential

  • Authors: Rihab Chhoud

  • Year: 2025

  • Citation (DOI): 10.1016/j.ijbiomac.2025.145425

  • Source: International Journal of Biological Macromolecules

  • Summary:
    This study investigates the structure and function of bioactive polysaccharides derived from the heart of date palm. Using various analytical techniques, the research characterizes their molecular composition and morphology. The polysaccharides exhibit notable α-amylase inhibition, indicating their potential as natural antidiabetic agents by moderating glucose release. These findings support the use of date palm-derived compounds in functional food or therapeutic formulations for diabetes management.

2. Chemical Profile of the Pits Oil from the Tunisian ‘Alig’ Cultivar of Phoenix dactylifera L.: In Vivo Wound Healing Potential Evaluation of a Cream Formulated from the Extracted Oil and Insights from Molecular Docking and SAR Analysis

  • Authors: Rihab Chhoud

  • Year: 2023

  • Citation (DOI): 10.1002/cbdv.202200533

  • Source: Chemistry & Biodiversity

  • Summary:
    This paper reports the chemical composition of oil extracted from the pits of the Tunisian date palm cultivar ‘Alig’. The formulated oil-based cream demonstrated significant wound healing properties in in vivo animal models. Additionally, molecular docking and structure–activity relationship (SAR) analysis identified possible mechanisms behind the bioactivity, suggesting fatty acids and phenolic compounds as key active constituents. The research supports the oil’s use in topical therapies for skin injuries.

3. Identification of an anti-herpetic compound isolated from Pistacia vera L. male floral buds

  • Authors: Rihab Chhoud

  • Year: 2022

  • Citation (DOI): 10.1007/s13205-022-03393-y

  • Source: 3 Biotech

  • Summary:
    The study isolated and identified a bioactive compound from male floral buds of Pistacia vera (pistachio) with anti-herpetic properties. In vitro assays confirmed inhibitory effects against herpes simplex virus (HSV) strains. The compound demonstrated low cytotoxicity and high selectivity index, making it a promising natural antiviral candidate. The work adds value to underexplored parts of the pistachio plant in phytopharmaceutical development.

4. Phytochemical and Bioactivities of Male Flower Buds of Fruit Trees from the Southern Tunisia: Polyphenols UPLC-MS Profiles and Antioxidant Enzymatic Potential in Human Plasma of Parkinson’s Disease Patients

  • Authors: Rihab Chhoud

  • Year: 2022

  • Citation (DOI): 10.1007/s42250-022-00430-4

  • Source: Chemistry Africa

  • Summary:
    This paper explores the polyphenolic composition (via UPLC-MS) of male flower buds from various fruit trees in southern Tunisia and evaluates their antioxidant effects on human plasma from Parkinson’s disease patients. The extracts enhanced enzymatic antioxidant defenses (e.g., SOD, CAT) and reduced oxidative stress markers. The findings highlight the neuroprotective potential of these traditional plant parts, paving the way for complementary therapies in neurodegenerative diseases

🔚 Conclusion

In conclusion, Dr. Rihab Chhoud is a forward-thinking chemist blending rigorous science with social impact 🔍💚. Her interdisciplinary training, international collaborations, and research on bioactive compounds place her at the forefront of sustainable biomedical innovation. A passionate teacher, active researcher, and lifelong learner, she bridges laboratory precision with real-world relevance. Her dedication to natural product discovery and green chemistry aligns with global health and environmental goals. From oasis fruit trees to molecular modeling, her journey is rooted in both local heritage and global vision 🌿🌐. With her expanding publication record and strong academic foundation, Dr. Chhoud is poised to contribute substantially to nutraceutical development, pharmacological science, and academic mentorship. A shining example of Tunisia’s emerging scientific talent, her career holds promise for further breakthroughs in natural therapies and chemical biology. The future looks bright for this devoted researcher, educator, and role model in modern chemistry 🧪✨.

Igor Eremenko | Inorganic Chemistry | Best Researcher Award

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Prof. Dr. Igor Eremenko | Inorganic Chemistry | Best Researcher Award

Chief Researcher, Head of Laboratory at Institute of General and Inorganic Chemistry, Russian Academy of Sciences, Russia

Prof. Dr. Eremenko Igor Leonidovich is a Full Member of the Russian Academy of Sciences and an esteemed chemist specializing in cluster chemistry and coordination compounds. Born on June 13, 1950, in Sterlitamak 🎂, he earned his Ph.D. (1977) and Dr. Sci. (1986) in Inorganic Chemistry from the N.S. Kurnakov Institute, Moscow 🏛️. His career spans decades, including positions at Zurich University and leadership roles in prestigious Russian institutes 🏢. He has made remarkable contributions to magnetic, photoactive, and bioactive materials, serving as Chief Editor of the Russian Journal of Coordination Chemistry and Head of Expert Counsel for RFBR (2014–2022) 🔬✨.

Professional Profile

Orcid

Scopus

Google Scholar

Education & Experience 🎓👨‍🔬

📌 Education:

  • 1973: Engineer, M.V. Lomonosov Institute of Fine Chemical Technology, Moscow 🏛️
  • 1977: Ph.D. (Inorganic Chemistry), N.S. Kurnakov Institute, RAS, Moscow 🧪
    • Thesis: Synthesis of carboxylate and thiolate Ti, V, and Cr complexes
  • 1986: Dr. Sci. (Inorganic Chemistry), N.S. Kurnakov Institute, RAS, Moscow 🏆
    • Thesis: Synthetic methods of chemical design of heteronuclear magnetic sulfide-bridged clusters
  • 1995: Professor (Inorganic Chemistry), N.S. Kurnakov Institute, RAS, Moscow 🎓
  • 1997: Corresponding Member, Russian Academy of Sciences 🏅
  • 2006: Full Member, Russian Academy of Sciences 🏛️

📌 Experience:

  • 1973–1981: Physical Technical Institute 🏢
  • 1981–1992: N.S. Kurnakov Institute of General and Inorganic Chemistry, RAS ⚛️
  • 1992–1994: Zurich University, Institute of Inorganic Chemistry 🇨🇭🔬
  • Since 2023: Head of Laboratory of Chemistry of Polynuclear Coordination Compounds, N.S. Kurnakov Institute, RAS 🏛️
  • Head of Laboratory of X-ray Studies, Nesmeyanov Institute of Organoelement Compounds 🏢📡
  • Chief Editor, Russian Journal of Coordination Chemistry 📰
  • Associate Editor, Russian Chemical Bulletin 📝
  • Head of Expert Counsel for Interdisciplinary Research, Russian Foundation for Basic Research (2014–2022) 🏅

Professional Development 📈🧪

Prof. Eremenko Igor Leonidovich has significantly contributed to coordination chemistry, cluster compounds, and inorganic materials. His pioneering research in magnetic sulfide-bridged clusters has advanced materials for photoactivity, catalysis, and bioactivity 🌍🔬. He has played a crucial role in academic publishing, overseeing top Russian chemistry journals 📖 and guiding interdisciplinary research projects. His expertise in X-ray investigations has provided groundbreaking insights into transition metal and lanthanide chemistry ✨⚛️. With a strong international collaboration background, including work at Zurich University, he remains a leading figure in inorganic chemistry research and development 🌟🔍.

Research Focus 🔬🧑‍🏫

Prof. Eremenko Igor Leonidovich is a renowned expert in cluster and coordination chemistry, with a primary focus on transition metals and lanthanides ⚛️. His work includes synthesizing novel polynuclear coordination compounds, particularly heteronuclear magnetic sulfide-bridged clusters 🔗. He investigates their magnetic, bioactive, and photoactive properties, contributing to materials science, catalysis, and medicinal chemistry 💡💊. His research also extends to X-ray crystallography, helping to unravel molecular structures 📡. With a strong commitment to interdisciplinary research, he has advanced the understanding of metal-based compounds in nanotechnology and medicine 🌍🔬.

Awards & Honors 🏆🎖️

  • 🏅 1997: Elected Corresponding Member, Russian Academy of Sciences
  • 🏛️ 2006: Elected Full Member, Russian Academy of Sciences
  • 🏆 Chief Editor, Russian Journal of Coordination Chemistry
  • 📖 Associate Editor, Russian Chemical Bulletin
  • 🌍 Head of Expert Counsel, Russian Foundation for Basic Research (2014–2022)
  • 🏅 Recognized leader in Cluster and Coordination Chemistry Research

Publication Top Notes

  • «Green-Ligand» in Metallodrugs Design—Cu(II) Complex with Phytic Acid: Synthetic Approach, EPR-Spectroscopy, and Antimycobacterial Activity

    • Authors: Kseniya A. Koshenskova, Natalia V. Makarenko, Fedor M. Dolgushin, Dmitriy S. Yambulatov, Olga B. Bekker, Matvey V. Fedin, Sergei A. Dementev, Olesya A. Krumkacheva, Igor L. Eremenko, and Irina A. Lutsenko.

    • Published in: Molecules, Volume 30, Issue 2, Article 313, on January 15, 2025.

    • DOI: 10.3390/molecules30020313

    • Abstract: This study explores the interaction of sodium phytate hydrate with copper(II) acetate monohydrate and 1,10-phenanthroline, resulting in the formation of an anionic tetranuclear complex. The complex’s structure was elucidated using X-ray diffraction analysis, revealing complete deprotonation of the phytate and various coordination modes with Cu²⁺ ions. The molecular structure is stabilized by strong intramolecular hydrogen bonds involving coordinated water molecules. Additionally, electron paramagnetic resonance (EPR) spectroscopy indicated the presence of both exchange-coupled Cu(II)-Cu(II) dimeric units and Cu(II) monomers. The complex demonstrated antimycobacterial activity against Mycolicibacterium smegmatis, suggesting potential as a metallodrug.

  • A Synthetic Approach to Heteroleptic Zn₂Ln₂ Complexes Featuring Photoluminescence, Antibacterial, and Anticancer Properties

    • Authors: Marina A. Uvarova, Fedor M. Dolgushin, Victoriya O. Shender, Mikhail T. Metlin, Daria A. Metlina, Ilya V. Taydakov, Olga B. Bekker, Irina A. Lutsenko, and Igor L. Eremenko.

    • Published in: New Journal of Chemistry, 2025.

    • DOI: 10.1039/D4NJ05283H

    • Abstract: This research presents a synthetic approach to heteroleptic Zn₂Ln₂ complexes, where Ln represents lanthanides such as Eu(III) and Tb(III). The study highlights the photoluminescent properties of these complexes, attributing the luminescence to energy transfer from Zn-based sensitizers to the lanthanide centers. Biological evaluations revealed high antibacterial activity against Mycolicibacterium smegmatis and selective antiproliferative effects against the ovarian cancer cell line SKOV3, indicating the complexes’ potential as therapeutic agents.

  • Effect of the Introduction of Zn²⁺ and Cd²⁺ Ions on Eu³⁺ and Tb³⁺ Emission in M₂Ln₂ Heterometallic Molecules with 2-Furoic Acid Anions

    • Authors: Not specified in the provided information.

    • Published in: Applied Organometallic Chemistry, 2025.

    • DOI: 10.1002/aoc.7836

    • Abstract: This study investigates how introducing Zn²⁺ and Cd²⁺ ions affects the emission properties of Eu³⁺ and Tb³⁺ in M₂Ln₂ heterometallic molecules that incorporate 2-furoic acid anions. The findings suggest that the presence of these d-block metal ions can modulate the luminescent properties of the lanthanide centers, offering insights into designing materials with tailored photophysical characteristics.

  • Luminescence Enhancement by Mixing Carboxylate Benzoate–Pentafluorobenzoate Ligands in Polynuclear {Eu₂Zn₂} and {Tb₂Zn₂} Complexes

    • Authors: Not specified in the provided information.

    • Published in: Dalton Transactions, 2025.

    • DOI: 10.1039/D4DT03414G

    • Abstract: The research explores the luminescence properties of polynuclear {Eu₂Zn₂} and {Tb₂Zn₂} complexes achieved by mixing carboxylate ligands, specifically benzoate and pentafluorobenzoate. The study demonstrates that such ligand mixing can enhance the luminescent efficiency of these complexes, providing a strategy for developing advanced luminescent materials.

  • Organogermanium(IV) Complexes with O,N,O′-Tridentate Schiff Bases: Synthesis, Electrochemical Transformations, Photophysical Properties, and Anti/Prooxidant Activity

    • Authors: Not specified in the provided information.

    • Published in: Inorganica Chimica Acta, 2025.

    • DOI: 10.1016/j.ica.2024.122482

    • Abstract: This article discusses the synthesis of organogermanium(IV) complexes with O,N,O′-tridentate Schiff bases and examines their electrochemical behavior, photophysical properties, and anti/prooxidant activities. The findings contribute to understanding the potential applications of these complexes in medicinal and materials chemistry.