Pengpeng Li | Functional Polymer Material | Research Excellence Award

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Assoc. Prof. Dr . Pengpeng Li | Functional Polymer Material | Research Excellence Award

Hebei University of Science and Technology | China

Assoc. Prof. Dr. Pengpeng Li is an active researcher in polymer materials and functional nanomaterials, with a strong focus on biodegradable functional polymers, bioinspired and chiral polymers, chiral micro/nano-structured materials, and circularly polarized luminescent materials for optical anti-counterfeiting and advanced optoelectronic applications. He has published over 20 SCI-indexed papers as first or corresponding author in leading journals such as Advanced Functional Materials, Nano-Micro Letters, Science China Chemistry, Chemical Engineering Journal, Macromolecules, and Nanoscale. His work demonstrates notable impact, reflected by high citation metrics, an h-index of 8, and multiple authorized patents, highlighting his growing international research influence.

Citation Metrics (Scopus)

220

180

140

100

60

20

0

Citations 203

Documents 22

h-index 8

Citations
Documents
h-index


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Weifeng Chen | Functional Materials | Research Excellence Award

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Assoc. Prof. Dr. Weifeng Chen | Functional Materials | Research Excellence Award

Liupanshui Normal University | China

Assoc. Prof. Dr. Weifeng Chen is an accomplished researcher in materials physics and chemistry, with a strong focus on advanced functional materials for sustainability and energy applications. His work spans superhydrophobic surfaces, high-entropy alloy catalysts, porous carbon materials, radiative cooling systems, and water harvesting technologies. He has authored 48 Scopus-indexed publications, receiving over 1,400 citations with an h-index of 16, and published an academic monograph. His research outputs include high-impact innovations in hydrogen evolution, CO₂ reduction, biodiesel catalysis, and atmospheric water harvesting, supported by multiple patents, provincial projects, and international collaborations.

Citation Metrics (Scopus)
1500

1200

900

600

300

0

 

Citations
1,433

Documents
48

h-index
16


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Wenshan Li | Materials Science | Research Excellence Award

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Assoc. Prof. Dr. Wenshan Li | Materials Science | Research Excellence Award

Shanghai Jiao Tong University | China

Assoc. Prof. Dr. Wenshan Li is a leading researcher in electronics and nanomaterials, with a strong focus on single-walled carbon nanotube (SWCNT) assembly, dielectrophoresis, and high-performance nanoelectronic devices. His work has advanced CNT-based transistors, biosensors, RF electronics, and energy storage systems, bridging fundamental nanoscience with scalable device integration. He has published extensively in high-impact journals such as ACS Nano, Nano Research, Nanoscale, Carbon, and Journal of Materials Chemistry, with multiple highly cited papers shaping the field. His research record reflects 606 total citations (215 since 2021), an h-index of 8, and an i10-index of 7, demonstrating sustained research excellence and international influence.

Citation Metrics (Google Scholar)

600

450

300

150

0

Citations
606

Documents
14

h-index
8

Citations
Documents
h-index


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Mohammad Alkaseem | Material Science | Research Excellence Award

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Dr. Mohammad Alkaseem | Material Science | Material science

Owlstone Medical | United Kingdom

Dr. Mohammad Alkaseem is an accomplished materials and analytical scientist whose research bridges material science, surface engineering, and applied photocatalysis with strong industrial relevance. His scholarly work focuses on hybrid organic–inorganic coatings, plasma electrolytic oxidation (PEO), corrosion-resistant magnesium alloys, photocatalytic nanomaterials, and functional polymer–metal interfaces, delivering solutions for environmental remediation, durability enhancement, and advanced material performance. With 17 Scopus-indexed publications, 284 citations, and an h-index of 9, his research demonstrates consistent impact in high-quality journals such as Chemical Engineering Journal, Advanced Composites and Hybrid Materials (Nature), Composites Part B, Journal of Magnesium and Alloys, and Surfaces and Interfaces. Alongside academic contributions, his professional research profile reflects strong expertise in advanced analytical techniques, VOC profiling, mass spectrometry, and translational materials research, positioning him as a notable contributor to applied material science and industrial innovation.

Citation Metrics (Scopus)

300

240

180

120

60

0

Citations 284

Documents 17

h-index
9


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Jose Luis Reyes Barragan | Materials Science | Leadership in Research Excellence Award

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Prof. Dr. Jose Luis Reyes Barragan | Materials Science | Leadership in Research Excellence Award

Universidad Politécnica de la Zona Metropolitana de Guadalajara | Mexico

Prof. Dr. José Luis Reyes Barragán is a prominent materials scientist and nanotechnology researcher at the Universidad Politécnica de la Zona Metropolitana de Guadalajara, Mexico. His research focuses on nanostructured coatings, thermomechanical processing of metals, corrosion behavior, and advanced ceramic and metallic composites. He has contributed to six peer-reviewed publications in high-impact journals such as Metals, Applied Sciences, Materials, and Advances in Materials Science and Engineering, accumulating 19 citations and an h-index of 2. His innovative projects bridge fundamental and applied research, including the development of gel-based cleaning agents for cultural heritage restoration, hydrotherapy and whey treatment technologies, and sustainability initiatives in materials engineering. As a member of the National System of Researchers (SNI-CONACYT) and contributor to industrial standards through CANACERO, Prof. Dr. José Luis Reyes Barragán exemplifies leadership in advancing nanoscience, metallurgy, and sustainable materials research in Mexico.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Porcayo-Calderon, J., Rodriguez-Diaz, R. A., de la Vega Olivas, J., Arrieta-Gonzalez, C. D., Gonzalez-Rodriguez, J. G., Chacón-Nava, J. G., & Reyes-Barragán, J. L. (2025). Effect of Cu and Ag content on the electrochemical performance of Fe40Al intermetallic alloy in artificial saliva. Metals, 15(8), 899.

Calderón, J. P., Reyes Barragán, J. L., Barraza Fierro, J. I., Cruz Mejía, H., Arrieta González, C. D., Ravelero Vázquez, V., Sánchez, K. P., Torres-Mancera, M. T., & Retes-Mantilla, R. F. (2022). Corrosion behavior of Al modified with Zn in chloride solution. Materials, 15(12), 4229.

Rodríguez Díaz, R. A., Gonzaga Segura, S. R., Reyes Barragán, J. L., Ravelero Vázquez, V., Molina Ocampo, A., Porcayo Calderón, J., Cruz Mejía, H., González Rodríguez, C. A., & Barraza Fierro, J. I. (2021). The synthesis of aluminum matrix composites reinforced with Fe–Al intermetallic compounds by ball milling and consolidation. Applied Sciences, 11(19), 8877.

Reyes Barragán, J. L., Rodríguez Díaz, R. A., Ojeda Martínez, M. L., Gaona Jiménez, S., & Juárez Islas, J. A. (2019). Effect of isothermal treatment on microstructure and mechanical properties of cold-deformed IF steel. Advances in Materials Science and Engineering, 2019(1), 8674323.

Rodríguez-Díaz, R. A., Reyes-Barragán, J. L., Arrieta-González, C. D., & Porcayo-Calderón, J. (2020). Corrosion assessment of Ag and Cr modified Fe40Al intermetallic alloy in Hank’s solution by electrochemical noise. International Journal of Electrochemical Science, 15(8), 7228–7241.

Vikram Raja Jothi | Material Science | Best Researcher Award

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Dr. Vikram Raja Jothi | Material Science | Best Researcher Award

Karlsruhe Institute of Technology | Germany

Dr. Vikram Raja Jothi is an accomplished materials scientist and researcher specializing in physical and mechanical metallurgy, additive manufacturing, and high-temperature alloy design. He earned his Ph.D. and M.Tech (Res) in Materials Engineering from the Indian Institute of Science, Bangalore, and holds a B.Tech in Metallurgical and Materials Engineering from IIT Madras. Currently an Alexander von Humboldt Postdoctoral Fellow at the Karlsruhe Institute of Technology, Germany, he has also worked as a Postdoctoral Research Fellow at the University of Michigan, USA. His research explores superalloys, refractory high-entropy alloys, creep behavior, and microstructural evolution in advanced materials. Dr. Vikram Raja Jothi has published extensively in reputed journals such as Scripta Materialia, Acta Materialia, and Advanced Engineering Materials, and has delivered invited talks at IIT Bombay and BARC. Recognized with prestigious awards and fellowships from SERB, CSIR, and IIM, he continues to advance innovative research in high-performance materials engineering.

Profile: Google Scholar

Featured Publications

Vikram, R. J., Sen, S., Yang, L., Eusterholz, M. K., Radi, A., Schliephake, D., … Heilmaier, M. (2026). Ultra-slow coarsening in precipitation-strengthened refractory high-entropy alloys. Scripta Materialia, 271, 117026.

Dash, K., Vikram, R. J., Wilde, G., & Phanikumar, G. (2025). Processing and properties of high entropy alloy multilayer laminates: A deformation study. Materials Chemistry and Physics, 131520.

Sasi, A., Vikram, R. J., & Dash, K. (2025). Corrosion and oxidation behavior of high entropy alloys in extreme and harsh environments: A perspective on steam corrosion. Journal of Applied Physics, 138(2).

Schliephake, D., Ramdoss, S. R., Vikram, R. J., Falcão, G., Galgon, F., Thota, H., … Heilmaier, M. (2025). Microstructure and mechanical properties of a laser-based directed energy deposited Mo-Si-Ti alloy. Journal of Materials Science, 1–15.

Yang, L., Sen, S., Schliephake, D., Vikram, R. J., Laube, S., Pramanik, A., … Heilmaier, M. (2025). Creep behavior of a precipitation-strengthened A2-B2 refractory high entropy alloy. Acta Materialia, 288, 120827.

Vikram, R. J., Reddy, S. T., Kirchner, A., Klöden, B., & Suwas, S. (2025). Monotonic tension and creep response of electron-beam powder bed fusion processed IN718 superalloy: Role of orthorhombic Ni3Nb δ-phase at grain boundaries. Materials Science and Engineering: A, 925, 147728.

Hairui Bai | Materials Science | Best Researcher Award

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Prof. Hairui Bai | Materials Science | Best Researcher Award

Shandong Laboratory of Advanced Materials and Green Manufacturing | China

Prof. Hairui Bai is an emerging researcher specializing in advanced materials and green manufacturing. He obtained his PhD in Materials Science and Engineering from Tongji University in 2022, focusing on PVDF-based energy storage nanocomposites, following a Master’s degree from Liaocheng University on ZnO-Bi2O3-based varistor ceramics. Since 2022, he has been contributing to the Shandong Laboratory of Advanced Materials and Green Manufacturing at Yantai, where his research spans polyimide, polyurethanes, multifunctional ceramics, and polymer-based nanocomposites. His technical expertise covers material analysis methods including XRD, SEM, TEM, FT-IR, XPS, AFM, dielectric and ferroelectric testing, and advanced computational modeling using COMSOL and MATLAB. Prof. Hairui Bai’s research highlights include the design of high-discharge energy density nanocomposites through interfacial polarization engineering and gradient architectures, achieving outstanding energy storage performance. He has published over ten high-impact academic papers in prestigious journals such as Advanced Functional Materials, Chemical Engineering Journal, Composites Science and Technology, Small, and Journal of Materials Chemistry A. Alongside his publications, he holds multiple patents in polymer-based composites, nanomaterials, and organic compounds, underscoring his innovation capacity. Although his current metrics indicate 1 citation, 2 documents, and an h-index of 1, his rapidly growing contributions and multidisciplinary skill set highlight strong potential for impactful future research in sustainable energy storage and multifunctional electronic materials.

Profile: Scopus

Featured Publications

Bai, H., Bi, S., Cui, F., et al. (2025). A new strategy for synthesis design of luminescent multifunctional ZnO-Bi2O3 based varistor ceramics. Materials Letters.

Victor Zhuravlev | Materials Science | Best Researcher Award

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Dr. Victor Zhuravlev | Materials Science | Best Researcher Award

Dr. Victor Zhuravlev | Institute of Solid State Chemistry UB RAS | Russia

Dr. Viktor Zhuravlev is a distinguished chemist and Head of the Laboratory of REE Compounds Chemistry at the Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences in Yekaterinburg, Russia. He has dedicated his career to advancing the field of solid-state chemistry with a particular focus on the synthesis of simple and complex oxides in self-propagating high-temperature synthesis reactions, the theory of iso- and heterovalent substitutions, and the development of high-entropy oxides. An accomplished scholar, he has authored more than one hundred fifty-five research articles, including a significant body of work indexed in Scopus and Web of Science. Dr. Zhuravlev is actively engaged as a reviewer for leading international journals such as Materials Today Chemistry, Inorganic Chemistry, Journal of Alloys and Compounds, Ceramics International, and others. Educated at Ural State University, he continues to contribute to the global scientific community through innovative research and academic leadership.

Publication Profile

Scopus

Orcid

Education and Qualifications

Dr. Victor Zhuravlev pursued his education in chemistry at Ural State University named after A.M. Gorky in Sverdlovsk, Russia, where he laid the foundation for his distinguished scientific career. His academic journey at this renowned institution equipped him with a deep understanding of chemical sciences, fostering his passion for research in solid-state chemistry and materials science. From the beginning of his studies, he showed a keen interest in the synthesis of oxides, substitution theories, and the chemistry of rare earth elements, areas that later became the cornerstone of his professional achievements. His continuous association with the field of chemistry from his university days to the present highlights a lifetime of dedication to advancing knowledge and innovation. The education and training he received at Ural State University not only shaped his scientific outlook but also prepared him to lead pioneering research and contribute significantly to global advancements in chemistry

Employment Profile

Dr. Victor Zhuravlev is a prominent scientist serving as the Head of the Laboratory of REE Compounds Chemistry at the Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences, located in Yekaterinburg, Russia. In this esteemed role, he has dedicated his expertise to advancing the understanding of rare earth element compounds and their chemical properties, particularly through innovative approaches to oxide synthesis and the study of high-entropy oxides. His employment at the institute reflects a long-standing commitment to scientific excellence and collaborative research that contributes significantly to the broader field of solid-state chemistry. Based at the St. Pervomayskaya 91 facility, Dr. Zhuravlev leads research teams, mentors emerging scientists, and actively participates in the global exchange of knowledge through publications and peer review activities. His career at the Ural Branch stands as a testament to his leadership and impactful contributions to chemistry.

Research Focus

Dr. Victor Zhuravlev’s research focus lies primarily within the domain of solid-state chemistry and advanced materials science, with particular emphasis on the synthesis and characterization of oxides and ceramic composites. His work addresses the development of rare earth element compounds, high-entropy oxides, zircon and alumina-based ceramics, and nickel spinel composites, using solution combustion synthesis and related methods. He explores the effects of sintering aids, additives, and structural modifications on the thermal stability, mechanical strength, and photocatalytic performance of these materials, seeking to enhance their efficiency for technological applications. His investigations also extend to the analysis of phase composition, structural transformations, and solid solution formation in ceramic systems, which are crucial for advancing energy, environmental, and industrial material technologies. By combining theoretical insights with practical synthesis techniques, Dr. Zhuravlev contributes significantly to innovations in functional materials, demonstrating leadership in rare earth chemistry and advanced ceramics research on a global scale.

Publication Top Notes

Effect of basalt aids on the thermal stability and mechanical properties of zircon composites produced by slip casting
Year: 2025

Phase Composition of Ni1–2хMnхCoхOy Precursors, where x = 0–0.5, Obtained by Solution Combustion Synthesis
Year: 2025

Production of α–Al2O3–3YSZ Porous Ceramics with α(γ)–Al2O3 Additive
Year: 2025

Analysis of the Formation of Solid Solutions of REE Orthochromites
Year: 2024

Effect of Sintering Aids Synthesized via Combustion of Aluminum Nitrates on Properties of Al2O3–3YSZ Ceramics
Year: 2024

The study of photocatalytic characteristics of NiAl2O4 spinel and NiO/Al2O3 composites obtained in SCS reactions with glycine
Year: 2024
Citations: 3

Simultaneous Thermal Analysis of Lithium Aluminate SCS-Precursors Produced with Different Fuels
Year: 2023
Citations: 1

Conclusion

Dr. Victor Zhuravlev stands as a highly deserving candidate for the Research for Best Researcher Award. His exceptional contributions to solid-state chemistry, strong publication record, and active engagement in the scientific community make him a leading figure in his field. With enhanced international collaborations, his global influence could be even more impactful.

Hua Wei | Materials Science | Best Researcher Award

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Prof. Hua Wei | Materials Science | Best Researcher Award

Professor at Zhejiang University, China

Dr. Hua Wei is a distinguished professor and doctoral supervisor in the College of Civil Engineering and Architecture, specializing in advanced materials. With a career spanning over two decades, he has significantly contributed to the development of superalloys and hypergravity materials. Currently a professor at Zhejiang University, Dr. Wei has held academic positions at top institutions including the Chinese Academy of Sciences and Nanjing Tech University. His interdisciplinary approach and global exposure, including a research tenure in Australia, highlight his dedication to innovation in materials science. Dr. Wei’s work has earned recognition within academic and research communities across China and beyond.

Publication Profile

Scopus

Academic Background

Dr. Hua Wei earned his Ph.D. in 2004 from the Superalloys Division, Institute of Metal Research, Chinese Academy of Sciences, focusing on high-performance materials. He completed his M.S. in 2001 and B.S. in 1998 at the School of Materials Science and Engineering, Taiyuan University of Science and Technology. His education laid the foundation for a robust career in research and teaching, blending theoretical knowledge with experimental expertise. His doctoral training at one of China’s premier research institutes further shaped his interest in high-temperature alloys and advanced material behavior, especially under extreme physical conditions like hypergravity.

Professional Experience

Dr. Wei has held prestigious academic positions across China’s leading universities and research centers. He is currently a professor at the Center for Hypergravity Experimental and Interdisciplinary Research at Zhejiang University (2017–present). Previously, he served as a professor at Nanjing Tech University and the Chinese Academy of Sciences (2004–2016), where he also held associate and assistant professor roles. He was a visiting scholar at the University of Queensland, Australia (2008–2010), gaining valuable international research experience. His career reflects a trajectory of continuous advancement, interdisciplinary research, and strong leadership in the field of materials engineering.

Awards and Honors

While the detailed list of Dr. Wei’s awards is not provided, his accolades include a senior membership in the Chinese Materials Research Society and an appointment as an online review expert for the National Natural Science Foundation of China. These roles signify a high level of peer recognition and academic influence. He is also a reviewer for top journals like Journal of Materials Science and Technology, Surface & Coatings Technology, and Acta Metallurgica Sinica. His long-standing academic presence and selection for international collaborations underscore his status as a leading researcher in his field.

Research Focus

Dr. Wei’s research centers on the design, preparation, and evaluation of superalloys and hypergravity-processed materials. He is particularly focused on the failure analysis and detection of engine components, leveraging both experimental techniques and computational materials science to advance materials performance. His work addresses critical challenges in aerospace, energy, and structural materials, integrating novel technologies with traditional metallurgy. Through hypergravity research, he explores new pathways for material enhancement. His innovative approaches contribute significantly to safety-critical industries, where high-temperature and high-stress conditions demand superior material solutions.

Publication Top Notes

📘 The unique influence of 1000 °C high-speed rotation simulated turbine blade working conditions on microstructural degradation of single-crystal superalloy NiAlReRu

🗓️ Year: 2024 | 📊 Cited by: 1 | 🧪 Journal of Materials Research and Technology

📘 Effect of crack on morphology evolution of the precipitates in Nickel-based superalloys under applied stress

🗓️ Year: 2024 | 📊 Cited by: 1 | ⚙️ Materials Today Communications

📘 Degradation and dislocation evolution of the nickel-based single crystal superalloy DD6 under the coupling high-speed rotating and high temperature environments

🗓️ Year: 2024 | 📊 Cited by: 6 | 🔩 Journal of Alloys and Compounds

Conclusion

Based on the provided information, Professor Hua Wei is a highly qualified and competitive candidate for the “Best Researcher Award,” particularly in the fields of materials science, civil engineering, and interdisciplinary innovation. With over two decades of academic and research experience at prestigious institutions such as the Chinese Academy of Sciences and Zhejiang University, he has demonstrated a consistent upward trajectory in his career, advancing from assistant to full professor. His specialized expertise in superalloys, hypergravity materials processing, failure analysis, and computational materials science reflects both depth and innovation. Professor Wei’s interdisciplinary approach, international research exposure, active role in professional societies, and contributions as a peer reviewer and funding evaluator further underscore his strong academic influence and leadership in the scientific community.

 

Patricia Rico | Materials Science | Best Researcher Award

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Dr. Patricia Rico | Materials Science | Best Researcher Award

Dr. Patricia Rico, Biomedical Research Networking Centre in Bioengineering, Biomaterials and Nanomedicine , Spain

Dr. Patricia Rico is a distinguished molecular biologist and Associate Researcher at the Spanish national biomedical network CIBER-BBN (Bioengineering, Biomaterials, and Nanomedicine). Her research integrates bioengineering, molecular biology, and regenerative medicine to develop novel therapies for muscle injuries and epithelial cancers. With extensive experience in designing cellular microenvironments and stem cell niches, she has made significant strides in tissue engineering and cell-material interactions. Her interdisciplinary work connects basic science with clinical applications. Dr. Rico is widely recognized for her commitment to translational biomedical research and has contributed to pioneering studies in boron-based therapies and extracellular matrix dynamics.

Publication Profile

Google Scholar

🎓 Education

Dr. Patricia Rico began her academic career with a Bachelor’s degree in Biological Sciences (1994–1999), followed by a CAP Master for pedagogical aptitude (1999–2000). She completed doctoral coursework and earned the Diploma of Advanced Studies (DEA) between 2001 and 2003 as part of her PhD pathway. She earned her PhD in Molecular Biology in 2006, focusing on the cellular and molecular mechanisms underpinning regenerative biology. Her training also includes a Master in experimental animal research procedures (2013) and the European R3 certification (2023), showcasing her commitment to both scientific excellence and ethical research standards.

🧪 Experience

Dr. Rico currently serves as an Associate Researcher at the CIBER-BBN network within the Centro de Investigación Biomédica en Red (CIBERISCIII), where she leads and contributes to several interdisciplinary biomedical projects. Her role involves engineering cellular microenvironments, designing synthetic tumor niches, and integrating biomaterials into therapeutic models. She has collaborated with leading Spanish and European institutions, mentoring junior scientists and contributing to strategic biomedical innovations. Her career spans over two decades, with a consistent focus on cell-material interactions, matrix biology, and translational research. She also holds research identifiers through ORCID and ResearcherID to ensure her scholarly contributions are accessible.

🏅 Awards & Honors

Dr. Patricia Rico has earned recognition for her impactful contributions to molecular biology and biomedical engineering. She holds the European R3 Researcher Certification (2023), which highlights her experience and competency at the international level. Her research has been supported by prestigious biomedical institutions, including CIBER-BBN and ISCIII. While specific named awards were not listed in the provided CV, her consistent leadership in projects, research collaborations, and participation in national biomedical research consortia reflect a high level of academic trust and professional standing. She is also authorized to conduct animal-based biomedical research, underscoring her credibility in preclinical studies.

🔬 Research Focus

Dr. Rico’s research focuses on developing boron-based therapies for muscle injuries, aging, neuromuscular diseases, and muscular dystrophies. She designs biomaterial-based cellular microenvironments that modulate intracellular signaling and promote stem cell differentiation for regenerative purposes. Her work also targets the engineering of synthetic tumor niches for the treatment of epithelial cancers. With a strong emphasis on the extracellular matrix and integrin-mediated adhesion, she explores how ions like boron and zinc influence cell behavior. Her studies integrate stem cells, membrane receptors, and matrix proteins to unlock new biomedical solutions, particularly in bone, cartilage, and muscle tissue regeneration.

Publication Top Notes

📘 Role of material-driven fibronectin fibrillogenesis in cell differentiation 📊 Cited by 164 🗓️ 2011
📘 Effect of nanoscale topography on fibronectin adsorption, focal adhesion size and matrix organisation 📊 Cited by 146 🗓️ 2010
📘 Substrate-induced assembly of fibronectin into networks: influence of surface chemistry and effect on osteoblast adhesion 📊 Cited by 117 🗓️ 2009
📘 Role of surface chemistry in protein remodeling at the cell-material interface 📊 Cited by 104 🗓️ 2011
📘 Engineered 3D hydrogels with full-length fibronectin that sequester and present growth factors 📊 Cited by 99 🗓️ 2020
📘 Role of superhydrophobicity in the biological activity of fibronectin at the cell–material interface 📊 Cited by 78 🗓️ 2011
📘 Insights into the Selective Pressures Restricting Pelargonium Flower Break Virus Genome Variability 📊 Cited by 62 🗓️ 2006
📘 Subtle variations in polymer chemistry modulate substrate stiffness and fibronectin activity 📊 Cited by 57 🗓️ 2010
📘 In Situ Hydroxyapatite Content Affects the Cell Differentiation on Porous Chitosan/Hydroxyapatite Scaffolds 📊 Cited by 44 🗓️ 2016
📘 Effect of in situ formed hydroxyapatite on microstructure of freeze-gelled chitosan-based biocomposite scaffolds 📊 Cited by 43 🗓️ 2015
📘 Controlled wettability, same chemistry: biological activity of plasma-polymerized coatings 📊 Cited by 42 🗓️ 2012
📘 Effect of topological cues on material-driven fibronectin fibrillogenesis and cell differentiation 📊 Cited by 41 🗓️ 2012
📘 Zinc uptake promotes myoblast differentiation via Zip7 transporter and activation of Akt signalling 📊 Cited by 39 🗓️ 2018
📘 Development of a Ta/TaN/TaNx(Ag)y/TaN nanocomposite coating system and bio-response study 📊 Cited by 34 🗓️ 2017