Dr. German Montes-Hernandez | Materials Chemistry | Best Researcher Award

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Dr. German Montes-Hernandez | Materials Chemistry | Best Researcher Award

Researcher | University Grenoble Alpes | France

Dr. German Montes Hernandez is a senior CNRS scientist recognized for his pioneering research in Earth and Material Sciences, focusing on mineral nucleation, growth, and transformation processes under mild and hydrothermal conditions. His expertise extends to the synthesis of mesocrystals and nanostructured materials, CO₂ capture and mineralization, pollutant removal from wastewater, reactive transport in porous media, and osmotic swelling of clays. He employs advanced analytical techniques such as infrared and Raman spectroscopy and atomic force microscopy (AFM) for real-time monitoring of mineral reactions. Dr. Montes Hernandez has made substantial contributions to understanding the mechanisms of mineral carbonation and environmental geochemistry, bridging experimental geoscience with sustainable materials development. His scholarly output includes over 80 peer-reviewed publications, 5 book contributions, and 5 patents as the first inventor. According to Google Scholar, he has accumulated more than 4,637 citations, with an H-index of 39 and an i10-index of 77, while Scopus lists 3,294 citations across 81 documents with an H-index of 34, reflecting his significant influence and consistent scientific productivity. His work has been instrumental in advancing carbon sequestration technologies and mineral-matter interaction studies, positioning him as a leading figure in geochemical research.

Profiles : Google Scholar | Scopus 

Featured Publications :

  • Montes-Hernandez, G., Pérez-López, R., Renard, F., Nieto, J. M., & Charlet, L. (2009). Mineral sequestration of CO₂ by aqueous carbonation of coal combustion fly ash. Journal of Hazardous Materials, 161(2–3), 1347–1354.

  • Beck, P., Quirico, E., Montes-Hernandez, G., Bonal, L., Bollard, J., et al. (2010). Hydrous mineralogy of CM and CI chondrites from infrared spectroscopy and their relationship with low albedo asteroids. Geochimica et Cosmochimica Acta, 74(16), 4881–4892.

  • Garenne, A., Beck, P., Montes-Hernandez, G., Chiriac, R., Toche, F., et al. (2014). The abundance and stability of “water” in type 1 and 2 carbonaceous chondrites (CI, CM, and CR). Geochimica et Cosmochimica Acta, 137, 93–112.

  • Montes-Hernandez, G., Renard, F., Geoffroy, N., Charlet, L., & Pironon, J. (2007). Calcite precipitation from CO₂–H₂O–Ca(OH)₂ slurry under high pressure of CO₂. Journal of Crystal Growth, 308(1), 228–236.

  • Pérez-López, R., Montes-Hernandez, G., Nieto, J. M., Renard, F., & Charlet, L. (2008). Carbonation of alkaline paper mill waste to reduce CO₂ greenhouse gas emissions into the atmosphere. Applied Geochemistry, 23(8), 2292–2300.*

Assoc. Prof. Dr. Mahdi Sheikh | Novel Catalytic Reactions | Best Researcher Award

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Assoc. Prof. Dr. Mahdi Sheikh | Novel Catalytic Reactions | Best Researcher Award

Tarbiat Modares University | Iran

Assoc. Prof. Dr. Mehdi Sheykhan is an accomplished organic chemist whose research focuses on catalytic organic synthesis, nanocatalysis, and metal–organic frameworks (MOFs) applied to sustainable chemical transformations. His expertise spans the design and development of novel homogeneous and heterogeneous catalytic systems, light-induced and electroorganic reactions, and activation of inert bonds for constructing complex organic molecules. Dr. Sheykhan’s pioneering work in MOF-catalysis and visible-light-driven organic transformations has contributed to advancing green and efficient synthetic methodologies with significant industrial and environmental relevance. His scientific influence is reflected through 2,043 citations (Google Scholar) with an h-index of 23 and an i10-index of 37, while Scopus records 1,715 citations from 1,493 documents with an h-index of 22, underscoring his sustained impact and recognition in the field. He has successfully supervised numerous Ph.D. and M.Sc. students, demonstrating leadership in academic mentorship and research innovation. As an active reviewer for prestigious journals including The Journal of Organic Chemistry and European Journal of Organic Chemistry, Dr. Sheykhan continues to contribute to the global scientific community. His ongoing research integrates MOF-based photocatalysis, electrochemical synthesis, and nanostructured materials for developing environmentally benign catalytic systems that push the frontiers of modern organic chemistry.

Profiles : Google Scholar | Scopus | Orcid 

Featured Publications : 

  1. Sheykhan, M., Karimi, A., Bahmani, M., Rezanoor, M., & Abbasnia, M. (2025). MOF and visible light in synergy: Decarboxylations catalyzed by metal–organic frameworks. Organic Letters, 27, 11884–11889.

  2. Sheykhan, M., Bahmani, M., & Abbasnia, M. (2024). The efficient LED-driven MOF-catalysis for aerobic C–H and C–C bond oxidation. Catalysis Science & Technology, 14, 6041–6054.

  3. Jalali, M. A., Koohi, A. D., & Sheykhan, M. (2024). S-scheme mechanism in the TiO2/Cu2O@Cu system toward selective degradation of an electron-rich dye pollutant under solar light. Journal of Molecular Liquids, 125830.

  4. Mahjoubian, M., Naeemi, A. S., & Sheykhan, M. (2024). Comparative toxicity of TiO2 and Sn-doped TiO2 nanoparticles in zebrafish after acute and chronic exposure. Biological Trace Element Research, 1–19.

  5. Alavi, F., Mamaghani, M., & Sheykhan, M. (2024). Synthesis and application of novel magnetic supported copper nanocatalyst for the preparation of thiazoles. Polycyclic Aromatic Compounds, 44, 4596–4619.

Dr. Vemula Madhavi | Environmental Chemistry | Women Researcher Award

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Dr. Vemula Madhavi | Environmental Chemistry | Women Researcher Award

Dr. Vemula Madhavi , Environmental Chemistry , Assistant Professor at BVRIT HYDERABAD College of Engineering for Women, India

Dr. S. Madhavi V is an accomplished chemist with a Ph.D. from Sri Venkateswara University, Tirupati, India. She has cultivated a solid academic and research career focused on nanomaterials, environmental remediation, and analytical chemistry. Currently serving as an Assistant Professor at BVRIT Hyderabad, Dr. Madhavi brings more than 15 years of teaching and research experience. Her work includes a granted Indian patent and multiple high-impact publications in reputed journals. She has also secured funding for research under TEQIP-III, JNTUH. With an h-index of 11 and over 500 citations, her contributions to green synthesis and environmental nanotechnology are widely recognized. A passionate educator and innovator, she continually strives to bridge the gap between research and societal application, especially in the field of water purification using sustainable materials.

Professional Profile : 

Google Scholar

Orcid 

Scopus 

Summary of Suitability for Award:

Dr. S. Madhavi V is highly suitable for the “Women Researcher Award” due to her significant and sustained contributions to the field of chemistry, particularly in nanotechnology and environmental applications. She has over 15 years of combined research and teaching experience, a granted Indian patent on sustainable water purification using graphene oxide from rice husk, and a funded research project under TEQIP-III on green nanomaterials for wastewater treatment. Her scholarly impact includes 540+ citations, h-index of 11, and 12+ research publications in high-impact journals spanning areas such as nanocomposites, MOFs, biomarker sensors, and agricultural nanotechnology. She integrates innovative eco-friendly methodologies in her work and demonstrates leadership as an academic and researcher. Dr. Madhavi has also contributed to science education through multiple academic positions, helping foster the next generation of chemists. Dr. S. Madhavi V embodies the spirit and excellence celebrated by the “Women Researcher Award”. Her impactful research, interdisciplinary approach, and commitment to sustainable science position her as a leading woman in the chemical sciences. Her achievements in patenting, publishing, and funded research underscore her excellence and innovation. She is not only an accomplished scientist but also a role model for aspiring women researchers in India and beyond.

🎓Education:

Dr. Madhavi V pursued her academic journey at Sri Venkateswara University, Tirupati, where she earned her Ph.D. in Chemistry in 2014. Her research was grounded in environmental and materials chemistry, focusing on the synthesis and application of nanomaterials for remediation. She holds an M.Sc. in Chemistry (2008) with a stellar score of 78.9%, and a B.Sc. in Mathematics, Physics, and Chemistry (2006) with an impressive 84%. Her earlier education includes Intermediate (2003) with 90% and SSC (2001) with 88%, showcasing consistent academic excellence throughout. These solid foundations in science and mathematics equipped her with critical analytical skills, enabling her to explore interdisciplinary challenges across chemistry and environmental science. Her academic progression reflects a deep commitment to learning, teaching, and developing sustainable scientific innovations.

🏢Work Experience:

Dr. Madhavi V began her academic career as an Academic Consultant in Chemistry at Yogi Vemana University (2008–2009). She then served as an Assistant Professor at Annamacharya Engineering College, Tirupati (2009–2010), and a Teaching Assistant at S.V. University (2010–2013). Her pedagogical contributions continued at CMRIT, Hyderabad (2013–2014), before joining BVRITH Hyderabad in 2014, where she continues to inspire students. Over 15 years, she has demonstrated excellence in curriculum delivery, research supervision, and innovation-driven education. Her interdisciplinary teaching spans general chemistry, environmental science, nanotechnology, and green chemistry. She has also guided students in research-based learning, integrating academic content with practical applications. Her teaching is marked by a commitment to quality education, fostering critical thinking and sustainable innovation among learners.

🏅Awards: 

Dr. S. Madhavi V has received several honors that underscore her excellence in research and innovation. Notably, she was granted an Indian patent (No. 410482) for her invention titled “Pretreated Rice Husk for Sustainable Graphene Oxide for Adsorptive Removal of Chromium from Water”, which highlights her commitment to sustainable environmental solutions. She also secured a funded research grant under the TEQIP-III collaborative scheme (JNTUH, 2019) for her project focused on synthesizing graphene from agricultural waste for the remediation of heavy metals in wastewater. Her scholarly impact is evidenced by a Google Scholar h-index of 11, i10 index of 11, and over 540 citations, recognizing her influential contributions to nanochemistry and environmental science. She is listed on major research platforms including Scopus, ORCID, and Google Scholar, which reflects her active engagement with the global scientific community. These accolades mark her as a distinguished and impactful woman researcher in the chemical sciences.

🔬Research Focus:

Dr. Madhavi V’s research is centered on green synthesis of nanomaterials, graphene production from biomass, and removal of heavy metals and dyes from wastewater using low-cost adsorbents. Her studies explore the eco-friendly conversion of agricultural waste into high-efficiency nanomaterials, with a focus on water remediation. She is deeply invested in adsorptive technologies, biomass-derived graphene, metal-organic frameworks (MOFs), and environmental sensors. Her work also extends to computational docking of metal complexes, magnetic and optical characterization of ferrites, and controlled release formulations for agricultural sustainability. By integrating sustainable materials science, environmental protection, and analytical techniques, her research contributes significantly to green chemistry and nanotechnology. With a strong inclination toward applications with social and environmental impact, Dr. Madhavi is a dedicated advocate for translating lab-scale innovations into real-world solutions.

Publication Top Notes:

1. Application of phytogenic zerovalent iron nanoparticles in the adsorption of hexavalent chromium

Citations: 221

2. An overview on research trends in remediation of chromium

Citations: 94

3. Remediation of chlorpyrifos-contaminated soils by laboratory-synthesized zero-valent nano iron particles: effect of pH and aluminium salts

Citations: 75

4. Synthesis and spectral characterization of iron-based micro and nanoparticles

Citations: 54

5. Chapter 8 – Recent improvements in the extraction, cleanup and quantification of bioactive flavonoids

Citations: 47

6. A selective and sensitive UPLC–MS/MS approach for trace level quantification of four potential genotoxic impurities in zolmitriptan drug substance

Citations: 36

7. Electrochemical investigations of lipase enzyme activity inhibition by methyl parathion pesticide: voltammetric studies

Citations: 33

8. Conjunctive effect of CMC–zero-valent iron nanoparticles and FYM in the remediation of chromium-contaminated soils

Citations: 30

9. Method development and validation study for quantitative determination of 2-chloromethyl-3,4-dimethoxy pyridine hydrochloride a genotoxic impurity in pantoprazole active …

Citations: 26

10. Liquid chromatography–tandem mass spectrometry method for simultaneous quantification of urapidil and aripiprazole in human plasma and its application to human pharmacokinetic …

Citations: 22

 

Assoc. Prof. Dr. Xiaoming Zhang | Physical Chemistry | Women Researcher Award

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Assoc. Prof. Dr. Xiaoming Zhang | Physical Chemistry | Women Researcher Award

Assoc. Prof. Dr. Xiaoming Zhang , Physical Chemistry , Minzu University of China , China

Dr. Zhang Xiaoming is an Associate Professor in Physical Chemistry at the College of Science, Minzu University of China. She specializes in functional self-assembly and interfacial physics of nanomaterials for applications in energy batteries, photocatalytic water splitting, and ultra-high-resolution imaging. She earned her Ph.D. from the Institute of Chemistry, Chinese Academy of Sciences in 2007. Dr. Zhang has held postdoctoral positions at Keio University (Japan), Dublin City University (Ireland), and the National Center for Nanoscience and Technology (China). She has published over 60 SCI-indexed papers and led multiple national and municipal research projects. Her work bridges fundamental nanoscience with real-world applications in energy and biotechnology. She is actively involved in editorial boards and academic committees and has received several teaching and research awards. She also mentors postgraduate and international postdoctoral researchers, contributing to global scientific exchange.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Zhang holds a Ph.D. in Physical Chemistry from the prestigious Institute of Chemistry, Chinese Academy of Sciences, with additional advanced training from globally recognized institutions such as Keio University (Japan) and Dublin City University (Ireland). She has published over 60 SCI-indexed papers as first or corresponding author, indicating her leading role in innovative research. Her work on nanomaterials, interfacial physics, and applications in energy storage, photocatalysis, and super-resolution imaging is both interdisciplinary and of high societal relevance. Dr. Zhang is the Principal Investigator for a major National Natural Science Foundation of China project and has led/co-led several national and international research initiatives, including talent introduction and key development programs. She is a Master’s and Ph.D. supervisor, actively mentoring both domestic and international researchers, especially women and underrepresented groups, thus contributing to capacity building and gender equity in science. Dr. Zhang Xiaoming embodies the ideal profile for the “Women Researcher Award”—a dynamic scientist who excels in cutting-edge research, mentors the next generation, contributes to international scientific dialogue, and advances gender representation in science. Her contributions not only enrich the scientific community but also serve as a role model for aspiring women researchers globally. Awarding her would recognize and further empower women’s leadership in science and technology.

🎓Education:

Dr. Zhang Xiaoming completed her Ph.D. in Physical Chemistry (2007) at the Institute of Chemistry, Chinese Academy of Sciences under the supervision of Prof. Junbai Li. She earned her M.Sc. in Physical Chemistry (2004) from Shandong Normal University, mentored by Prof. Zexin Wang, where she began her research into molecular self-assembly. Prior to that, she obtained her B.Sc. in Chemistry (2001) from the same university. Her education laid the foundation for her interdisciplinary approach, combining chemistry, nanotechnology, and physics. Through her studies, she developed a deep understanding of surface chemistry, interfacial interactions, and bio-functionalization, which now underpin her research on nanomaterial design for energy and biomedical applications.

🏢Work Experience:

Dr. Zhang has extensive academic and industrial experience. Since 2017, she has served as an Associate Professor at Minzu University of China. Before that, she was Deputy General Manager and Senior Engineer at the American Bentley Company (Beijing) from 2015 to 2017. Her academic journey includes postdoctoral positions at Keio University (Japan, 2007–2008), Dublin City University (Ireland, 2010–2012), and the National Center for Nanoscience and Technology, China (2012–2015). This international research exposure has shaped her cross-disciplinary expertise in nanoscience, interfacial physics, and functional materials. She has been actively involved in major national-level research projects and contributes to graduate education and talent training initiatives.

🏅Awards: 

Dr. Zhang has received numerous awards for her academic, research, and teaching excellence. These include the 2025 Outstanding Individual in Undergraduate Recruitment Publicity and 2024 Outstanding Work Performance awards from Minzu University. She earned Second Prize in the 2024 Education and Teaching Innovation Competition and several awards for teaching excellence, including the First Prize in the 11th Teaching Competition and the Best Teaching Demonstration Award (2018). Her research was internationally recognized with the IRCSET EMPOWER Fellowship (2010) in Ireland. She has also been honored as an Outstanding Instructor and Outstanding Communist Party Member and continues to be a highly active contributor in national education evaluations and academic forums.

🔬Research Focus:

Dr. Zhang’s research focuses on functional nanomaterials, particularly their self-assembly, bio-functionalization, and interfacial physics. Her goal is to harness these properties for energy storage, photocatalytic water splitting, and ultra-high resolution fluorescence imaging. Her interdisciplinary approach blends chemistry, nanotechnology, and biology. She investigates how nanostructures form and behave at interfaces, which is key to improving battery performance and catalytic efficiency. One of her recent projects explores the co-assembly of glucagon-like peptide GLP-1 with lipopeptides, using super-resolution fluorescence microscopy to visualize intracellular transport. She also studies the epitaxial growth of GeSn alloys for use in mid-infrared photodetectors, expanding her expertise into semiconductor applications.

Publication Top Notes:

1. High-performance ethanol detection achieved by WO₃/Co₃O₄ composite heterojunctions with synergistic p-n junction features

2. Probing Peptide Assembly and Interaction via High-Resolution Imaging Techniques: A Mini Review.

3. Engineering of peptide assemblies for adaptable protein delivery to achieve efficient intracellular biocatalysis

4. Manganese doped tailored cobalt sulfide as an accelerated catalyst for oxygen evolution reaction

5. Solution-processed, ultrasensitive, high current density vertical phototransistor using porous carbon nanotube electrode

6. Dramatic increase in SWIR detection for GeSn strip detector with graphene hybrid structure

7. A review on III–V compound semiconductor short wave infrared avalanche photodiodes

8. Two-dimensional antimony selenide (Sb₂Se₃) nanosheets prepared by hydrothermal method for visible-light photodetectors

9. Fabrication of graphene: CdSe quantum dots/CdS nanorod heterojunction photodetector and role of graphene to enhance the photoresponsive characteristics

10. One-Step Synthesis of SiOx@Graphene Composite Material by a Hydrothermal Method for Lithium-Ion Battery Anodes

 

Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

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Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

Ms. Apurva Singh | Organic Chemistry | PhD at Indian institute of technology Roorkee, India

Apurva Singh is an organic chemistry  with a keen interest in technological advancements and artificial intelligence applications in chemistry. With five years of research experience in academic laboratories and two years as a tutor, she specializes in organic synthesis and catalysis. Currently pursuing her Ph.D. at IIT Roorkee under Prof. Naseem Ahmed, she is engaged in process chemistry, exploring new methodologies using homogeneous and heterogeneous catalysis. Apurva has a strong publication record in international journals, reflecting her expertise and dedication to scientific research. She is highly motivated, analytical, and committed to knowledge exchange. Her enthusiasm for teaching, research, and interdisciplinary collaboration makes her a dynamic professional in the field of chemistry.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Apurva Singh is a highly promising researcher in the field of organic synthesis and catalysis, demonstrating a strong commitment to scientific innovation. With five years of research experience at IIT Roorkee, she has contributed significantly to the development of novel catalytic methodologies, particularly in transition-metal catalysis, oxidation reactions, and organo catalysis. Her research has led to multiple publications in high-impact journals, including RSC, Synthesis (Thieme), and Organic & Biomolecular Chemistry, showcasing her ability to conduct impactful studies. Additionally, she has received prestigious poster awards at national and international conferences, underscoring her ability to effectively present and communicate her findings. Given her strong publication record, innovative research contributions, and recognition through awards, Apurva Singh is a highly suitable candidate for the “Best Researcher Award.” Her work in catalysis and organic synthesis, coupled with her dedication to advancing chemical sciences, makes her a deserving nominee for this prestigious recognition.

🎓Education:

Apurva Singh is currently pursuing her Ph.D. in Organic Synthesis and Catalysis at the Indian Institute of Technology (IIT) Roorkee under the mentorship of Prof. Naseem Ahmed. Her research focuses on developing innovative catalytic methodologies for organic transformations, with publications in reputed journals such as RSC and Synthesis (Thieme). Prior to her Ph.D., she completed her Master of Science (M.Sc.) in Chemistry from Chaudhary Charan Singh University (CCSU), Meerut, in 2017, securing a first-class distinction with 76%. During her postgraduate studies, she gained expertise in organic chemistry and reaction mechanisms, further strengthening her foundation in the subject. Additionally, she pursued a Bachelor of Education (B.Ed.) from CCSU, Meerut, from 2018 to 2020, achieving 80%. Her B.Ed. degree equipped her with essential teaching skills, enhancing her ability to mentor and guide students in the academic field. Apurva’s strong academic background demonstrates her dedication to both research and education.

🏢Work Experience:

Apurva Singh has over five years of research experience in organic chemistry, specializing in catalysis, and two years of teaching experience. She is currently a Ph.D. researcher at IIT Roorkee, working on process chemistry, where she investigates novel catalytic methodologies for organic synthesis. Her research involves designing transition-metal complexes for oxidation reactions and developing regio selective synthetic strategies. She has published multiple research articles in internationally recognized journals, highlighting her contributions to the field. Apart from research, she has two years of experience as an academic tutor, mentoring undergraduate and postgraduate students in organic chemistry. She has assisted in research activities, manuscript writing, and conference presentations. Her expertise extends to coding for computational chemistry applications, bridging experimental and theoretical approaches. Apurva’s proactive nature and strong communication skills enable her to collaborate effectively, making significant contributions to both research and academic training.

🏅Awards: 

Apurva Singh has received multiple accolades for her outstanding research contributions. In 2024, she was awarded the Poster Award at the Indian Academy of Sciences Meeting and Lecture Workshop held at IIT Roorkee, recognizing her innovative work in catalysis and organic synthesis. In the same year, she won another Poster Award at the 2nd International Conference on Molecules to Materials at NIT Hamirpur, further establishing her expertise in the field. These awards highlight her ability to present complex scientific findings effectively and her dedication to advancing research. Her work has been widely appreciated for its significance in developing new catalytic methodologies, and she continues to be an active participant in scientific conferences and symposiums. Apurva’s achievements reflect her commitment to excellence in research and academia, positioning her as a promising scientist in the field of organic chemistry.

🔬Research Focus:

Apurva Singh’s research focuses on organic synthesis and catalysis, with a strong emphasis on developing novel transition-metal complexes for oxidation reactions. She explores homogeneous and heterogeneous catalysis to improve reaction efficiency and selectivity, mimicking enzymatic processes for sustainable chemistry. Her work includes the design of μ-chlorido-bridged dimanganese(II) complexes to replicate galactose oxidase enzyme activity, offering applications in oxidation and aldol reactions. She is also engaged in Fenton free radical reactions for regio selective synthesis of complex molecules. Her recent studies on organocatalytic synthesis of bioactive pyrazoline and pyrimidine derivatives contribute to medicinal chemistry by targeting bacterial enzymes like thymidine kinase in Staphylococcus aureus. Apurva is particularly interested in the intersection of chemistry and artificial intelligence, leveraging computational tools to predict reaction mechanisms and optimize catalyst design. Her multidisciplinary approach bridges fundamental chemistry with emerging technologies, driving innovation in organic synthesis and process chemistry.

Publication Top Notes:

1. Nickel(II)-hydrazineylpyridine catalyzed regioselective synthesis of α-benzyl substituted β-hydroxy ketones via a Fenton free radical reaction

Authors: Not provided in the given data

Year: 2025

Journal: Organic & Biomolecular Chemistry

2. Oxidative Cyclization Reactions Catalyzed by Designed Transition-Metal Complexes: A New Strategy for the Synthesis of Flavone, Quinolone, and Benzofuran Derivatives

Authors: Not provided in the given data

Year: 2023

Journal: Synthesis

3. Designed μ-Chlorido-bridged dimanganese(II) complexes to mimic the activity of galactose oxidase enzyme: Application in the dehydrogenative oxidation of alcohol and aldol reaction

Authors: Not provided in the given data

4. Organocatalytic synthesis of novel pyrazoline and pyrimidine derivatives as potent thymidine kinase inhibitors targeting Staphylococcus aureus

Authors: M.I. Issa Alahmdi

Year: 2025