Aniela Montserrat Silva Nolasco | Pharmaceutical Chemistry | Excellence in Research Award

Published on by Top Pharmaceutical

Excellence in Research Award


Aniela Montserrat Silva Nolasco

Universidad de Castilla-La Mancha, Spain


Aniela Montserrat Silva Nolasco
Affiliation Universidad de Castilla-La Mancha
Country Spain
Scopus ID
57221107566
Documents 21
Citations 23
h-index 2
Subject Area Pharmaceutical Chemistry
Event International Top Pharmaceutical Awards

Aniela Montserrat Silva Nolasco is a pharmaceutical science researcher associated with Universidad de Castilla-La Mancha, Spain. Her academic profile demonstrates research engagement in molecular pharmacology, pharmaceutical chemistry, cancer biology, and bioactive therapeutic compounds. Published studies associated with her scholarly work examine anticancer properties of argentatins, immunomodulatory activity, and translational therapeutic applications in oncology-related biomedical sciences.[1] Her research contributions are indexed through recognized academic databases including Scopus and ORCID, supporting international visibility and scientific dissemination within pharmaceutical and biomedical research communities.[2]

Abstract

This article summarizes the academic contributions and pharmaceutical research activities of Aniela Montserrat Silva Nolasco. The profile reflects scholarly involvement in cancer biology, molecular pharmacology, pharmaceutical chemistry, and translational therapeutic research involving argentatin compounds and related bioactive agents.[3] Indexed publications, DOI-linked research outputs, and collaborative scientific studies contribute to the researcher’s academic visibility within pharmaceutical and biomedical sciences.[4]

Keywords

Pharmaceutical Chemistry, Molecular Pharmacology, Anticancer Research, Argentatins, Cancer Biology, Translational Medicine, Immunomodulation, Biomedical Sciences, Oncology Research, Therapeutic Compounds.

Introduction

Pharmaceutical research associated with molecular therapeutics and cancer-related biomedical investigations continues to contribute substantially to contemporary translational medicine. Current scientific developments increasingly emphasize naturally derived compounds with potential therapeutic applications against tumor progression and immune dysregulation.[5] Research contributions associated with Aniela Montserrat Silva Nolasco demonstrate participation in this evolving pharmaceutical research landscape through investigations involving argentatins and cellular pharmacological mechanisms.[6]

Research Profile

The academic profile of Aniela Montserrat Silva Nolasco includes affiliations with Universidad de Castilla-La Mancha and previous research and educational activities associated with pharmaceutical and molecular sciences. Her scholarly background includes pharmaceutical biology, cellular pharmacology, and laboratory-based biomedical investigations relevant to therapeutic development and oncology-focused pharmaceutical sciences.[2]

The Scopus profile linked to the researcher identifies indexed publication activity, citation tracking, and collaborative research participation within pharmaceutical and biomedical disciplines. These indicators support measurable academic visibility and ongoing scholarly communication across internationally indexed scientific platforms.[1]

Research Contributions

Research contributions associated with Aniela Montserrat Silva Nolasco include investigations on argentatin compounds and their biological activity in cancer-related cellular environments. Published studies report antimigratory and antiangiogenic effects alongside analyses of long-term resistance induction associated with argentatin A and argentatin B.[3]

Additional scientific contributions address immunomodulatory activity isolated from guayule-derived compounds and synergistic therapeutic interactions involving 5-fluorouracil in colorectal cancer cell models. These studies contribute to broader translational pharmaceutical research exploring molecular therapeutic strategies in oncology-related biomedical sciences.[4]

Publications

The publication profile associated with Aniela Montserrat Silva Nolasco includes peer-reviewed research outputs indexed through recognized scientific databases. DOI-linked publications contribute to scholarly accessibility, research transparency, and international academic dissemination within pharmaceutical chemistry and molecular biomedical sciences.[3][4]

DOI-linked publications facilitate long-term accessibility and citation reliability within digital academic infrastructures. The use of persistent identifiers further supports research transparency, discoverability, and scholarly preservation across multidisciplinary scientific environments.[3]

Research Impact

Research impact is commonly evaluated using publication visibility, citation performance, indexed dissemination, and scholarly engagement across scientific communities. The researcher’s profile demonstrates documented participation in peer-reviewed pharmaceutical and biomedical research activities through Scopus-indexed publications and DOI-associated scholarly outputs.[1]

The available citation indicators and publication metrics support measurable academic relevance within specialized pharmaceutical chemistry and translational biomedical research domains. Continued scientific dissemination and collaborative publication activity may further strengthen long-term academic visibility and research influence.[2]

Award Suitability

The research activities and scholarly outputs associated with Aniela Montserrat Silva Nolasco align with the objectives of the International Top Pharmaceutical Awards through contributions to pharmaceutical chemistry, cancer-related therapeutic investigations, and molecular biomedical sciences.[6] The profile reflects participation in interdisciplinary scientific studies relevant to pharmaceutical innovation and translational therapeutic development.[3]

Conclusion

Aniela Montserrat Silva Nolasco has contributed to pharmaceutical and biomedical research through studies involving anticancer compounds, immunomodulatory activity, and molecular therapeutic investigations. Her academic profile demonstrates scholarly engagement within pharmaceutical chemistry and translational medicine, supported by indexed publications, collaborative research contributions, and DOI-linked scientific dissemination.[5]

References

  1. Elsevier. (n.d.). Scopus author details: Aniela Montserrat Silva Nolasco, Author ID 57221107566. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57221107566
  2. ORCID. (2026). Aniela M. Silva-Nolasco ORCID profile, affiliations, and academic activities.https://orcid.org/0000-0002-2134-7551
  3. Silva-Nolasco, A. M., Galvez, B. G., de la Cruz-Morcillo, M. A., & Carmona, M. (2026). Differential anti-cancer effects of argentatin A and B: antimigratory, antiangiogenic, and long-term resistance induction. Industrial Crops and Products.https://doi.org/10.1016/j.indcrop.2026.123255
  4. Silva-Nolasco, A. M., Singh, N., de la Cruz-Morcillo, M. A., García-Martínez, M. M., Zalacain, A., Gálvez, B. G., & Carmona, M. (2024). Immunomodulatory activity of argentatins A and B isolated from guayule. PLOS ONE.https://doi.org/10.1371/journal.pone.0304713
  5. Sánchez‐Olivares, P., Silva‐Nolasco, A. M., de la Cruz‐Morcillo, M. A., García‐Martínez, M. M., Pinedo‐Serrano, A., Carmona, M., & Galán‐Moya, E. M. (2024). Synergistic Potential of Argentatins A and B to Improve 5‐Fluorouracil Cytotoxicity in Colorectal Cancer Cell Models. Journal of Cellular and Molecular Medicine.https://doi.org/10.1111/jcmm.70294

Salih PAŞA | Pharmaceutical Chemistry | Best Researcher Award

Published on by Top Pharmaceutical

Salih PAŞA | Pharmaceutical Chemistry | Best Researcher Award

Assoc. Prof. Dr Salih PAŞA, Afyon Kocatepe University, Turkey

Assoc. Prof. Dr. Salih PAŞA is an esteemed inorganic chemist specializing in pharmaceutical chemistry, anticancer research, and catalytic investigations. He earned his BSc (2007), MSc (2010), and PhD (2014) in Inorganic Chemistry. With extensive expertise in boron compounds, biodegradable polymers, and spectroscopy techniques, he has significantly contributed to Schiff base ligand coordination chemistry and Suzuki coupling reactions. Currently, he serves at Afyon Kocatepe University, Turkey. His pioneering work on boron-based cancer therapeutics and water purification underscores his impactful research.

Publication Profile

google scholar

Education

Assoc. Prof. Dr. Salih Paşa 🎓 has built a strong academic foundation in chemistry, specializing in inorganic chemistry. He earned his Bachelor of Science (BSc) degree in Chemistry (2002-2007) 🧪, followed by a Master of Science (MSc) in Inorganic Chemistry (2007-2010) ⚗️. His passion for research and scientific exploration led him to pursue a PhD in Inorganic Chemistry (2010-2014) 🔬. Through years of dedication, he has contributed significantly to the field, advancing knowledge in chemical sciences. His academic journey reflects a commitment to excellence, making valuable contributions to research and education in inorganic chemistry. 📚✨

Research Interest

Assoc. Prof. Dr. Salih Paşa 🔬 focuses his research on the coordination chemistry of polydentate ligands, particularly thio Schiff bases and their transition metal complexes. His work explores their analytical applications, synthetic utility, and biological activity 🧪. He is especially interested in palladium complexes of (N,O,S) and (N,O,P) type ligands, known for their catalytic role in Suzuki coupling reactions ⚗️. Additionally, he investigates boronic acids, unique boron-based compounds that act as Lewis acids, forming reversible covalent bonds with sugars, amino acids, and other Lewis base donors. His studies contribute significantly to advancing inorganic and organometallic chemistry. 🌟

Instrumental Expertise

Assoc. Prof. Dr. Salih Paşa 🎓 possesses extensive expertise in advanced analytical instrumentation, crucial for modern chemical research. He is highly skilled in techniques such as LC-MS/MS, NMR (¹³C & ¹H), XRD, SEM, FTIR, UV-Vis, AAS, GC, and thermal analysis 🔬⚗️. His proficiency in single-crystal X-ray diffraction studies allows for precise molecular structure determination, enhancing the understanding of complex chemical compounds 🧪. With a strong command of these instrumental techniques, he contributes significantly to inorganic and materials chemistry, facilitating groundbreaking research in coordination chemistry, catalysis, and boron-based compounds. His expertise ensures high precision in chemical analysis.

Future Potential

Assoc. Prof. Dr. Salih Paşa 🌱🔬 is actively exploring innovative research in sustainable chemistry and materials science. His recent work focuses on developing biodegradable polymer materials from waste potato starch, contributing to green chemistry and environmental sustainability 🌍♻️. Additionally, his research on the polymerization of Schiff base ligands opens new possibilities in advanced materials, with potential applications in catalysis, drug delivery, and nanotechnology ⚗️. Through his dedication to eco-friendly solutions and cutting-edge polymer research, he aims to revolutionize materials science, creating sustainable alternatives that benefit both industry and the environment. His work paves the way for a greener future. 🌟

Scientific Recognition

Assoc. Prof. Dr. Salih Paşa 📚🔬 has earned significant scientific recognition through multiple publications in high-impact SCI journals, including Chinese Chemical Letters, Inorganica Chimica Acta, Polyhedron, Applied Catalysis A, Applied Organometallic Chemistry, and Tetrahedron: Asymmetry 🏆. His collaborations with international researchers, particularly from Kazakh-British Technical University, highlight his global academic influence 🌍🤝. His contributions to catalysis, drug discovery, and polymer chemistry reinforce the importance of his research, driving advancements in these fields. Through his dedication and impactful studies, he continues to shape the future of inorganic and organometallic chemistry. ⚗️✨

Research Focus

Assoc. Prof. Dr. Salih Paşa’s research primarily focuses on green chemistry 🌱, nanotechnology 🧪, and materials science 🏗️. His work includes the green synthesis of nanoparticles ⚛️, biodegradable materials for eco-friendly applications 🌍, and catalysis in organic synthesis 🔬. He has contributed significantly to biodegradable food packaging 🍽️, anticancer drug discovery 🏥, and advanced polymer materials 🏭. His studies on Schiff bases 🧬, metal complexes ⚗️, and biocompatible materials 🔄 highlight his expertise in designing sustainable and functional materials with industrial and biomedical applications. His work aligns with pharmaceutical chemistry 💊, material engineering 🏢, and green nanotechnology 🌿.

Publication Top Notes

Green synthesis of silver nanoparticles via Cynara scolymus leaf extracts: The characterization, anticancer potential with photodynamic therapy in MCF7 cells

The fabrication of bilayer polylactic acid films from cross-linked starch as eco-friendly biodegradable materials: synthesis, characterization, mechanical and physical properties

Silane doped biodegradable starch-PLA bilayer films for food packaging applications: Mechanical, thermal, barrier and biodegradability properties

Synthesis, characterization and catalytic behavior in the Suzuki reaction of Schiff base and its complexes and the optical properties of nickel complex used in the fabrication …

Flavonoids from Sideritis Species: Human Monoamine Oxidase (hMAO) Inhibitory Activities, Molecular Docking Studies and Crystal Structure of Xanthomicrol

Synthesis, characterization, electrochemical behaviors and applications in the Suzuki–Miyaura cross-coupling reactions of N2S2O2 thio Schiff base ligand and its Cu (II), Co …

Physicochemical properties for food packaging and toxicity behaviors against healthy cells of environmentally friendly biocompatible starch/citric acid/polyvinyl alcohol …

The synthesis of boronic-imine structured compounds and identification of their anticancer, antimicrobial and antioxidant activities

Structural investigation of raw clinoptilolite over the Pb2+ adsorption process from phosphoric acid