Joana Mendes | Dental | Best Researcher Award

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Dr. Joana Mendes | Dental | Best Researcher Award

University Institute of Health Sciences (IUCS), Portugal

Joana Mendes is a distinguished academic and clinical professional whose career spans the realms of marine biology and dental sciences. Currently serving as a Researcher at the UNIPRO – Oral Pathology and Rehabilitation Research Unit and as an Invited Assistant at Instituto Universitário de Ciências da Saúde, Joana combines academic rigor with clinical expertise. Her dedication to translational medicine and dental innovation is evident through her interdisciplinary educational background, a growing portfolio of scientific publications, and recognition from the academic community. She exemplifies a new generation of health researchers focused on enhancing patient outcomes through evidence-based clinical practice.

Profile

ORCID

Education

Joana Mendes has cultivated a rich and diverse academic path. She began with a Licenciatura in Ciências do Meio Aquático at the Universidade do Porto (2013), followed by a Mestrado in Recursos Biológicos Aquáticos (2015), where she studied aquaculture nutrition in Senegalese sole. Driven by a passion for clinical science, she pursued a Licenciatura (2020) and subsequently a Mestrado Integrado in Medicina Dentária (2023) at Instituto Universitário de Ciências da Saúde. Her current academic endeavor is a Doctorate in Medicine and Translational Research at Universitat de Barcelona, started in 2023. This multidisciplinary education provides her with a unique ability to bridge biological sciences with clinical applications in dentistry.

Professional Experience

Joana’s professional engagements reflect both depth and breadth. She has been a researcher at UNIPRO since 2022, where she is actively involved in dental material studies and implantology. Simultaneously, she works as an Invited Assistant at IUCS, contributing to the academic training of future dentists. Clinically, she practices as a Médica Dentista at Clínica Luso Espanhola. Her experience also includes multiple roles as a dental assistant and formadora (instructor) at higher education institutions. Earlier in her career, she completed research traineeships in marine and aquatic biology, which laid the foundation for her analytical and methodological skills, now applied to dental research.

Research Interests

Joana Mendes focuses on oral rehabilitation, dental biomaterials, and implantology. Her research delves into the mechanical properties of prosthetic components, implant-abutment interfaces, and torque dynamics of dental screws. She is particularly interested in biofilm formation, screw loosening prevention, and the influence of environmental and chemical agents (such as beverages and cleaning solutions) on prosthetic integrity. This research aims to optimize prosthodontic materials and techniques, ensuring better longevity and performance of dental treatments. Her commitment to translational research is evident in how she merges laboratory findings with real-world clinical challenges.

Awards and Honors

Joana has been recognized for her academic excellence and presentation skills. In 2021, she won the Best Poster Award for her work on thermoplastic prostheses in pediatric dentistry at the Instituto Superior de Ciências da Saúde Norte. Additionally, she received Honorable Mentions for posters showcasing the VISTA surgical technique and the application of T-scan technology for evaluating occlusal contacts. These accolades underscore her ability to communicate complex clinical research effectively and her innovative approach to dental practice.

Key Publications

Joana Mendes has authored several impactful journal articles in the fields of materials science and dental research. Highlighted below are seven of her significant publications, all cited by related research in prosthodontics and implantology:

  1. “Evaluation of Oral Mucosa Elastomers for a 3D Oral Simulation Model”, Materials, 2025 – Cited in studies on oral biomechanical simulations.

  2. “Evaluation of Orthodontic Mini-Implants’ Stability Based on Insertion and Removal Torques”, Bioengineering, 2025 – Referenced for biomechanical evaluation of implants.

  3. “Coating Materials to Prevent Screw Loosening in Single Dental Implant Crowns: A Systematic Review”, Materials, 2024 – Cited in prosthetic screw design studies.

  4. “The Influence of the Diameter of Orthodontic Mini-Implants on Primary Stability”, Materials, 2024 – Referenced in implant design research.

  5. “Preload and Removal Torque of Two Different Prosthetic Screw Coatings—A Laboratory Study”, Materials, 2024 – Noted for prosthetic material performance.

  6. “Influence of Popular Beverages on the Fracture Resistance of Implant-Supported Bis-Acrylic Resin Provisional Crowns”, Polymers, 2023 – Cited for dietary impact on prosthetics.

  7. “The Influence of Cleaning Solutions on the Retention of Overdenture Attachment Systems”, Biomedicines, 2023 – Referenced in hygiene and retention studies.

Conclusion

Joana Mendes embodies the synergy of clinical expertise and academic excellence. Her innovative research in dental materials and prosthodontics, coupled with her commitment to education and patient care, places her among the promising leaders in dental science. With a well-rounded academic background, real-world clinical engagement, and impactful scholarly contributions, Joana is a deserving nominee for recognition in any academic or research excellence award program.

Cristina Veres | Mechanical Properties of Advanced Materials | Best Review Paper Award

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Dr. Cristina Veres | Mechanical Properties of Advanced Materials | Best Review Paper Award

Lecturer at G.E.Palade UMPhST, Romania

Dr. Veres Cristina is a versatile academic and professional specializing in management, engineering, and biomedical innovation. She serves as a university lecturer at the University of Medicine, Pharmacy, Science and Technology of Târgu Mureș (UMFST), where she teaches courses in industrial and project management, biomedical engineering, and sustainable development. In parallel, she holds the position of Academic Secretary within the Vice-Rector’s Office for International Relations, University Networks, and Public Relations. She also acts as Head of Management Administration at Azomureș JSC, a leading agricultural fertilizer company, where she oversees strategic initiatives, educational partnerships, and internal training. Her profile reflects a dynamic blend of academic rigor and practical leadership across sectors.

Profile

Scholar

Education

Dr. Veres holds a rich academic background grounded in multidisciplinary studies. She earned her Bachelor’s and Master’s degrees in Management and Business Management from the University “Petru Maior” in Târgu Mureș. She then pursued doctoral studies in Engineering and Management at the Technical University of Cluj-Napoca, focusing on lean practices in industrial and healthcare systems. Further advancing her expertise, she completed postdoctoral studies at the Romanian Academy’s Institute of National Economy, researching lean healthcare strategies. She also obtained a Master’s degree in Engineering Sciences Applied in Medicine from the Technical University of Cluj-Napoca between 2021 and 2023. Additionally, she gained international academic exposure through an Erasmus scholarship at the Università del Salento in Italy.

Experience

With over a decade of diverse professional experience, Dr. Veres has successfully navigated both academia and industry. Between 2012 and 2019, she worked at IRUM JSC as a marketing specialist, managing communications, logistics, customer relations, and technical sales in the agricultural and forestry equipment sector. Since 2019, she has served as Head of Management Administration at Azomureș JSC, contributing to strategic development, academic collaboration, and project coordination. In academia, she has been a university lecturer since 2018, teaching a wide range of management and engineering subjects and mentoring students in practical and research-oriented capacities. Her recent appointment as Academic Secretary further reflects her strategic contributions to UMFST’s international outreach and institutional development.

Research Interest

Dr. Veres’s research interests are highly interdisciplinary, combining elements of management, biomedical engineering, and industrial optimization. She focuses on lean manufacturing, Industry 4.0, economic engineering, sustainability, healthcare improvement, and training strategies. Her work emphasizes enhancing operational efficiency while maintaining adaptability in complex systems, especially within the healthcare and manufacturing sectors. She also contributes to environmental research, leading a study on air quality factors in the Târgu Mureș metropolitan area. Her involvement in national and European projects such as Horizon Europe underscores her commitment to forward-looking, impact-driven research.

Awards

Dr. Veres has been recognized for her outstanding academic and research contributions. In 2023, she received an award for Web of Science-indexed publications under the UEFISCDI research results competition. Earlier, she won the Grand Prix “Virgil Madgearu” at the National Olympiad of Students in Economics and Management in 2012. She holds a trainer certificate since 2019 and has completed international training in lean methodologies, including “Toyota Kata in Field Training” by ALFRA Lean Advisors, underscoring her continuous professional development and leadership in educational innovation.

Publications

Dr. Veres has published over 70 scientific articles and received more than 770 citations. Her most cited and impactful publications include:

  • “Externalities of Lean Implementation in Medical Laboratories. Process Optimization vs. Adaptation and Flexibility for the Future”, International Journal of Environmental Research and Public Health, 2021 – cited in healthcare process adaptation research.

  • “Economic Effects of Idea Generation and Idea Management System in Automotive Industry: a Quantitative Case Study for Romania”, The Journal of Technology Transfer, 2023 – cited in innovation and knowledge transfer studies.

  • “A Lean Approach in Educational Laboratories”, IEEE Xplore, 2019 – cited in digital lean education and manufacturing systems.

  • Additional publications featured in MDPI and SpringerLink journals, contributing to biomedical and industrial research.

These works demonstrate her academic impact in both engineering and healthcare systems.

Conclusion

Dr. Veres Cristina exemplifies the integration of academic excellence, industrial expertise, and strategic leadership. Her accomplishments in education, research, and professional practice make her a distinguished candidate for award recognition. Her ongoing work in lean systems, biomedical innovation, and interdisciplinary education confirms her commitment to meaningful contributions in both academic and societal contexts. She represents the values of innovation, collaboration, and excellence that this award seeks to honor.

Yong-xin Li | Advanced Manufacturing Technologies for FRPs | Best Researcher Award

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Dr. Yong-xin Li | Advanced Manufacturing Technologies for FRPs | Best Researcher Award

Associate professor at Jiangsu Normal University, China

Dr. Yong-Xin Li is a distinguished researcher in natural product chemistry, with profound expertise in plant-derived and marine-derived bioactives. Currently serving at Jiangsu Normal University, he has extensively contributed to advancing food safety, bioactive compound isolation, and therapeutic potential assessment of natural substances. His career reflects a global perspective, including advanced research training in Korea and sustained academic engagement in China. His work not only bridges traditional Chinese medicine with modern food science but also opens new avenues in marine bioprocessing and sustainable bioresource utilization.

Profile

Scopus

Education

Dr. Li earned his Ph.D. and Master’s degrees in Chemistry from Pukyong National University, Republic of Korea, between 2008 and 2012. He began his academic journey with a B.Sc. in Chemistry from Dong-A University. These foundational years equipped him with robust theoretical grounding and practical skills, particularly in extraction techniques, compound purification, and structural elucidation. His international education laid the groundwork for interdisciplinary and cross-cultural collaborations that continue to shape his career.

Experience

Dr. Li’s professional journey began at the Academy of Sciences of Traditional Chinese Medicine in Jilin Province, where he investigated bioactive compounds from traditional resources. He completed a postdoctoral fellowship at the Marine Bioprocess Research Center in Korea, where he focused on marine natural products. Subsequently, he served at the Affiliated Hospital of Traditional Chinese Medicine, Shanghai University, before joining Jiangsu Normal University in 2017. Across these roles, he has consistently combined applied research with innovative methods in bioactivity evaluation, significantly contributing to the food and pharmaceutical sectors.

Research Interest

Dr. Li’s research interests lie in the extraction, structural characterization, and biofunctional assessment of natural polysaccharides and secondary metabolites from both terrestrial and marine sources. He focuses on the immunomodulatory, antioxidant, anticancer, and gut microbiota-regulating properties of these compounds. He is especially invested in enhancing food safety by replacing synthetic additives with bio-based preservatives. His recent studies explore the synergistic potential of combining land and marine bioresources to develop sustainable, functional ingredients that meet the rising demand for natural and clean-label food products.

Awards

Dr. Li has been recognized for his innovation in food chemistry and marine bioproducts. While specific individual awards were not listed in his CV, his prolific publication record and collaborative roles in international projects highlight his influence. His work continues to receive accolades within academic circles and peer communities through high citation counts and journal recognition. His eligibility for this award is underpinned by a consistent trajectory of interdisciplinary research, practical application, and academic mentorship.

Publications

Among his numerous publications, the following seven highlight his diverse and impactful contributions:

  1. Li, Y.-X. et al. “In Vitro Antioxidant Activity of 5-HMF from Marine Red Alga.” J. Microbiol. Biotechnol, 2009, 19(11), 1319–1327 – cited in studies exploring algal antioxidants.

  2. Li, Y.-X. et al. “Floridoside and D-Isofloridoside from Laurencia undulata.” J. Agric. Food Chem, 2010, 58, 578–586 – influential in natural antioxidant development.

  3. Li, Y.-X. et al. “Fucodiphloroethol G as a VEGF Inhibitor.” Process Biochemistry, 2011, 46, 1095–1103 – cited in angiogenesis-targeted therapy research.

  4. Li, Y.-X. et al. “Phlorotannins from Brown Algae.” Process Biochemistry, 2011, 46, 2219–2224 – broadly referenced in marine bioactivity literature.

  5. Li, Y.-X. & Kim, S.-K. “Seaweed Ingredients in Food Industry.” Food Sci. Biotechnol., 2011, 20(6), 1461–1466 – foundational for seaweed-based functional foods.

  6. Zhang, C. et al. “Dieckol Regulates Invasion in Fibrosarcoma Cells.” Evidence-Based Complementary and Alternative Medicine, 2011 – cited in cancer cell migration studies.

  7. Li, Y.-X. et al. “Triterpenoids of Marine Origin.” Molecules, 2013, 18, 7886-7909 – a frequently cited review on marine triterpenoid compounds.

Conclusion

Dr. YongXin Li is an exceptionally suitable candidate for the Best Researcher Award due to:

  • His diverse and impactful research in natural product chemistry
  • A prolific publication record in respected international journals
  • Proven innovations with societal relevance in health and food safety
  • A global research footprint and interdisciplinary collaborations

He embodies the qualities of a modern researcher: innovative, cross-disciplinary, sustainable, and impactful. Recognizing him with a Best Researcher Award would be a well-deserved acknowledgment of his scientific excellence and contributions to human well-being.

Seyed Reza Elmi Hosseini | welding and additive manufacturing | Distinguished Scientist Award

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Assist. Prof. Dr. Seyed Reza Elmi Hosseini | welding and additive manufacturing | Distinguished Scientist Award

Assistant Professor at Iran University of Science and Technology, Iran

Dr. Seyed Reza Elmi Hosseini is an accomplished Assistant Professor at the School of Metallurgy and Materials Engineering, Iran University of Science and Technology. With a professional trajectory marked by consistent academic excellence and substantial contributions to materials science, particularly in welding metallurgy and additive manufacturing, he has earned national and international recognition. Dr. Hosseini’s academic journey reflects a rigorous pursuit of innovation, underpinned by a strong foundation in physical metallurgy, advanced welding processes, and simulation technologies.

Profile

Scholar

Education

Dr. Hosseini’s educational path exemplifies a deep commitment to scientific advancement. He obtained his B.Sc. in Materials Science and Engineering from Ferdowsi University of Mashhad, followed by an M.Sc. in the same discipline from Iran University of Science and Technology, where he investigated vacuum arc remelting processes. He then pursued a Ph.D. in Materials Science and Engineering (Welding Metallurgy) at Shanghai Jiao Tong University, China. His doctoral thesis, supported by the National Natural Science Foundation of China, focused on enhancing the strength of laser-welded dissimilar joints, specifically Ti6Al4V and 304 stainless steel. Postdoctoral research at the University of Aveiro, Portugal, further enriched his expertise in welding simulation and anodizing optimization.

Experience

Dr. Hosseini’s professional career spans teaching, research, and industry collaboration. He began as a faculty member at the University of Sistan & Baluchestan, where he taught extensively from 2007 to 2014. Since 2020, he has served as Assistant Professor at Iran University of Science and Technology. His teaching includes B.Sc. and M.Sc. courses such as Welding and Joining of Materials, Powder Metallurgy, and Additive Manufacturing. In parallel, he contributed to industrial projects involving welding automation, friction stir welding machine production, and metallurgical component design. His international experience includes collaborations on laser welding, corrosion fatigue analysis, and advanced material characterization.

Research Interests

Dr. Hosseini’s research interests lie at the intersection of welding technologies, additive manufacturing, and alloy behavior under extreme conditions. His primary focus areas include welding metallurgy, simulation of joining processes, mechanical and microstructural analysis of advanced alloys, and numerical modeling of thermal-mechanical behaviors. His work has significantly impacted understanding microstructural evolution during high-energy manufacturing processes and optimizing welding parameters for structural integrity in critical applications such as aerospace and rail transport systems.

Awards

Dr. Hosseini has received numerous honors and accolades, recognizing his academic prowess and international collaborations. In 2024, he was honored as the Outstanding Faculty Member in International Collaboration at IUST. During his doctoral studies in China, he received the Excellent International Student Scholarship (2015–2017) and the prestigious Chinese Government Scholarship (2014–2018). He also earned accolades for teaching excellence, scholarly books, and research papers, including top ranks at national conferences and academic symposia. His mentorship on student projects and community engagement further underscore his holistic contribution to academia.

Publications

Dr. Hosseini is a prolific author, with over 40 peer-reviewed journal articles and several book chapters to his credit. Seven notable recent publications include:

  1. “Microstructure and Hardness of Nickel-Based Coatings Prepared by Laser Additive Manufacturing” in Materials (2024) — cited by 5 articles.

  2. “Microstructure Evolution and Mechanical Properties of NiAlCrFeMo High Entropy Superalloy” in Intermetallics (2024) — cited by 4 articles.

  3. “Unified Viscoplastic Constitutive Equation for EA4T Steel” in International Journal of Non-Linear Mechanics (2024) — cited by 2 articles.

  4. “Dynamic Recrystallization Model of 40CrNiMo” in Journal of Materials Engineering and Performance (2024) — cited by 3 articles.

  5. “Review of Metal Additive Manufacturing Processes” in Materials (2023) — cited by 14 articles.

  6. “Multi-scale Modeling for Cross-Wedge Rolling” in Materials Today Communications (2023) — cited by 6 articles.

  7. “Laser-Welded Ti-SS Joint Strength Enhancement” in Optics and Laser Technology (2019) — cited by 28 articles.

These publications have garnered substantial citations, demonstrating the global impact of his scholarly output.

Conclusion

Considering his interdisciplinary expertise, global academic collaborations, high-impact publications, pedagogical dedication, and industrial contributions, Dr. Seyed Reza Elmi Hosseini is highly suitable for the Best Researcher Award. His profile showcases a rare blend of theoretical innovation, hands-on experimentation, and global scientific dialogue—qualities that define not just a good researcher, but a trailblazer in modern materials engineering.

Meiling Zhu | Biomimetic nanoparticle & Gene therapy | Best Researcher Award

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Prof. Meiling Zhu | Biomimetic nanoparticle & Gene therapy | Best Researcher Award

Research Assistant Professor at The Eighth Affiliated Hospital, Sun Yat-Sen University, China

Dr. Meiling Zhu is an accomplished biomedical engineering researcher currently serving as an Associate Researcher at the Eighth Affiliated Hospital of Sun Yat-sen University (SYSU) under the prestigious Hundred Talents Program. With a deep-rooted commitment to regenerative medicine, biomaterials, and drug delivery systems, she has consistently contributed cutting-edge research in stem cell differentiation, nanoparticle therapeutics, and tissue engineering. Her interdisciplinary expertise bridges pharmaceutics, biomedical engineering, and nanotechnology, propelling forward impactful innovations in healthcare.

Profile

Scopus

Education

Dr. Zhu’s academic journey began with a Bachelor’s degree in Pharmaceutics from Guangdong Pharmaceutical University in 2010. She then pursued her MPhil in Biomedical Engineering at Sun Yat-sen University from 2010 to 2013, where she was mentored by Prof. Yihong Gong and Prof. Zhangqi Feng. She went on to earn her Ph.D. in Biomedical Engineering from The Chinese University of Hong Kong in 2016 under the supervision of Prof. Liming Bian. Her education laid a strong foundation in biomaterials, drug delivery, and stem cell biology, enabling her to explore interdisciplinary solutions in biomedical research.

Experience

Dr. Zhu has accumulated extensive academic and research experience. From 2013 to 2019, she held positions as a Research Assistant and Postdoctoral Fellow at The Chinese University of Hong Kong and the LI Ka Shing Institute of Health Science. She furthered her postdoctoral studies at the Hong Kong University of Science and Technology in the Department of Chemical and Biological Engineering. Since December 2020, she has served as an Associate Researcher at SYSU, leading innovative research on hydrogels, nanoparticles, and bio-derived delivery systems. Her career reflects a strong blend of academic excellence and practical application, particularly in the fields of regenerative medicine and nanomedicine.

Research Interest

Dr. Zhu’s primary research interests include biomaterials, hydrogels, supramolecular chemistry, mesenchymal stem cells, and tissue regeneration. She focuses on designing bio-inspired scaffolds and nanoparticles for targeted and sustained drug delivery, enhancing cellular interactions and therapeutic efficacy. Her work also delves into the effects of mechanical and biochemical cues on stem cell behavior, the development of host–guest complexation for responsive drug release, and the engineering of functional microenvironments for osteogenesis and chondrogenesis. These interests underscore her mission to improve clinical outcomes through translational biomaterials research.

Awards

Dr. Zhu has received several prestigious awards recognizing her scientific contributions. In 2018, she was honored with the Outstanding Thesis Award by the Faculty of Engineering at The Chinese University of Hong Kong—being the sole recipient. She was selected for the SYSU Hundred Talents Program in 2020. She also received the Trainee Award at the World Biomaterials Congress in 2016 and held scholarships at CUHK and SYSU. Additionally, she has been a reviewer for leading journals such as ACS Nano and Journal of Applied Nanoscience, reflecting her recognition in the academic community.

Publications

Dr. Zhu has published extensively in top-tier journals. Below are seven selected publications with corresponding years and citations:

  1. Zhu, M., Lin, S., Sun, Y., et al. (2016). “Hydrogels functionalized with N-cadherin mimetic peptide enhance osteogenesis of hMSCs by emulating the osteogenic niche.” Biomaterials, 77:44–52. – Cited by 275 articles.

  2. Li, R., Lin, S., Zhu, M., et al. (2019). “Synthetic presentation of noncanonical Wnt5a motif promotes mechanosensing-dependent differentiation of stem cells.” Science Advances, 5: eaaw3896. – Cited by 320 articles.

  3. Wei, K., Zhu, M., Sun, Y., et al. (2016). “Robust biopolymeric supramolecular ‘Host−Guest Macromer’ hydrogels for cartilage regeneration.” Macromolecules, 49(2): 509–518. – Cited by 180 articles.

  4. Zhu, M., Feng, Q., Bian, L. (2014). “Differential effect of hypoxia on human mesenchymal stem cell chondrogenesis in hydrogels.” Acta Biomaterialia, 10(3):1333–1340. – Cited by 210 articles.

  5. Choi, C.K., Xu, Y., Zhu, M., et al. (2015). “A gold@polydopamine core-shell nanoprobe for intracellular detection of microRNAs.” J. Am. Chem. Soc., 137(23):7337–7346. – Cited by 140 articles.

  6. Zhu, M., Lin, S., et al. (2020). “Surface Decoration of Development-inspired Synthetic N-cadherin Motif via Ac-BP Promotes Osseointegration.” Bioactive Materials, accepted. – Cited by 65 articles.

  7. Wu, L., Liu, B., Zhu, M., et al. (2019). “Patterning Perfluorinated Surface with Graphene Oxide and the Biological Applications.” Micromachines, 10(3):173. – Cited by 90 articles.

Conclusion

Dr. Meiling Zhu embodies the criteria of a Best Researcher Award recipient through her outstanding academic training, innovative research contributions, international collaborations, and scientific excellence. Her work bridges fundamental science with translational medicine, and she has consistently demonstrated originality, rigor, and relevance. Her active engagement in publishing, presenting, mentoring, and collaborating marks her as a leader among emerging researchers.

SYED AHMED SHAH | Biomaterials | Best Researcher Award

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Assist. Prof. Dr. SYED AHMED SHAH | Biomaterials | Best Researcher Award

Assistant Professor at  Superior University, Lahore, Pakistan

Dr. Syed Ahmed Shah is an accomplished pharmaceutical scientist and biomaterials researcher currently serving as an Assistant Professor (Research) at the Institute of Fundamental Technological Research, Polish Academy of Sciences, Poland, and as an Assistant Professor of Pharmaceutics at the Superior University, Lahore, Pakistan. His academic and research trajectory reflects a consistent focus on interdisciplinary biomedical applications, particularly in developing stimuli-responsive hydrogels and drug delivery systems. Through his leadership in research, teaching, and international collaboration, Dr. Shah has made impactful contributions in the fields of pharmaceutics, tissue engineering, and wound healing.

Profile

Scholar

Education

Dr. Shah earned his Doctor of Pharmacy (Pharm.D.) degree from COMSATS Institute of Information Technology in 2014, followed by a Master’s in Pharmacy (Pharmaceutics) in 2017, where he developed novel gastroprotective drug delivery systems. He further obtained a Ph.D. in Pharmacy from COMSATS University Islamabad in collaboration with the University of Twente, Netherlands, focusing on injectable hydrogels for diabetic wound healing. Currently, he is a postdoctoral fellow under the prestigious PASIFIC MSCA program in Poland, developing biopolymer-based injectable hydrogels for bone tissue engineering.

Experience

With over a decade of academic and research experience, Dr. Shah has held several teaching and research positions. He has taught undergraduate and graduate courses at institutions such as COMSATS University and The Superior University, where he also serves as a member of the Research Advisory and Ethics Committee. His research journey includes roles as a doctoral researcher in HEC-funded projects and international guest fellowships in the Netherlands. He is also a principal investigator in the European Horizon-funded HydroBoneReg project. Dr. Shah actively supervises M.Phil. theses and leads research training for students in pharmaceutical technology and biomaterials.

Research Interest

Dr. Shah’s research interests encompass the design and application of multifunctionalized hydrogels, in situ injectable systems, thermoresponsive and enzymatically crosslinked materials, and targeted drug delivery. His work extends into chronic wound healing, bone regeneration, and bioavailability enhancement of poorly soluble drugs. He employs a wide range of analytical and biological tools to optimize these systems, contributing to advanced therapeutic platforms that align with clinical needs.

Awards

Dr. Shah has received multiple prestigious recognitions, including the Best Oral Speaker Award at the 5th International Conference on Biomaterials & Biodevices in London (2024), the Research Excellence Awards from Superior University in both 2022 and 2023, and the Erasmus+ Staff Mobility Award for international research collaboration. He has been a recipient of the HEC IRSIP Fellowship and various national grants totaling over PKR 5.5 million for developing advanced hydrogel-based therapies. His ongoing MSCA postdoctoral fellowship is valued at over €170,000, highlighting his global recognition as a leading early-career researcher.

Publications

Dr. Shah has authored over 20 peer-reviewed publications in high-impact journals. Below are seven notable papers:

  1. Shah, S.A. et al. (2024). Integrating Micro- and Nanostructured Platforms for Biomaterial-Based Bone Regeneration. Biomacromolecules. [Cited by 5]

  2. Zargarian, S. et al. (2024). Green photothermal materials from organic waste. Nanotechnology Reviews, 13(1). [Cited by 3]

  3. Haghighat Bayan, M.A. et al. (2024). Nanofiber-Based Face Masks with Photothermal Properties. Advanced Materials Technologies, p.2400450. [Cited by 2]

  4. Jabeen, N. et al. (2024). Nanocrystals-loaded collagen/alginate hydrogels for hydrophobic drugs. Journal of Drug Delivery Science and Technology, 91, 105291. [Cited by 6]

  5. Haroon, B. et al. (2023). κ-carrageenan-based hydrogels for bone regeneration. International Journal of Biological Macromolecules, 251, 126380. [Cited by 9]

  6. Shah, S.A. et al. (2023). 3D multifunctional bioactive hydrogels with nano-curcumin. International Journal of Biological Macromolecules, 227, 203–220. [Cited by 12]

  7. Shah, S.A. et al. (2021). Curcumin-laden hyaluronic acid-co-pullulan biomaterials for diabetic wounds. International Journal of Biological Macromolecules, 185, 350–368. [Cited by 22]

Conclusion

Dr. Syed Ahmed Shah stands out as an innovative, impactful, and internationally recognized researcher in the field of pharmaceutical sciences and biomaterials. His consistent output, global collaborations, mentoring contributions, and technical mastery clearly position him as a top-tier candidate for the Best Researcher Award. His career trajectory is not only impressive in terms of output but also inspiring in its dedication to addressing pressing global healthcare challenges through research.

Ismail zghari | dosimétrie fibrée | Best Research Article Award

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Dr. Ismail zghari | dosimétrie fibrée | Best Research Article Award

Doctor at Université de Lille, France

Dr. Ismail Zghari is a dedicated physicist specializing in nuclear and medical physics, with a strong focus on dosimetry and radiation characterization. A PhD candidate at the University of Lille, France, Dr. Zghari has demonstrated commendable interdisciplinary expertise through research and teaching roles across academic and clinical institutions. With experience spanning radiation therapy, spectrometric measurements, and simulation-based modeling, he bridges the gap between theoretical understanding and practical application. His academic trajectory and early-career contributions mark him as a rising figure in medical physics and nuclear safety.

Profile

ORCID

Education

Dr. Zghari has pursued a progressive and targeted academic path in the field of physics. He began with a Bachelor’s degree in Physics from Mohamed Premier University of Oujda in 2016. He then earned two Master’s degrees—first in Physics of Matter and Radiation (2016–2018) at Mohamed Premier University, and later in Fundamental Physics and Applications with a specialization in Nuclear Dismantlement and Modeling from the University of Nantes and IMT Atlantique (2020–2021). Since October 2021, he has been pursuing a doctoral degree at the University of Lille, focusing on dosimetric analysis and radiation characterization, expected to conclude in September 2024. His academic record is supplemented by professional training in English and preparation for international academic standards through Campus France.

Experience

Dr. Zghari has gained comprehensive experience through internships, research positions, and teaching engagements. Notably, he completed an internship in radiotherapy at the Hassan II Oncology Center in Oujda in 2020, where he contributed to patient dose calculations. In 2021, he joined Subatech at IN2P3 Nantes for a Master’s research project within the Structure and Nuclear Energy Group (SEN), exploring advanced modeling in nuclear physics. He has also completed 124 hours of undergraduate teaching in physics at L1 and L2 levels. His next major professional step is a postdoctoral fellowship (2025–2027), focusing on transient phenomena analysis using X-ray imaging—an innovative and high-impact field within diagnostic physics.

Research Interests

Dr. Zghari’s research centers on dosimetry, radiation safety, spectrometric analysis, and simulation methods in nuclear and medical physics. He specializes in dosimetric characterizations under X-ray exposure, gamma and alpha spectrometry, and neutron activation analysis. His methodological toolkit includes Monte Carlo simulations (MCNP, GEANT4), image processing, and transient phenomena detection using X-ray imaging. He also has strong capabilities in computational modeling (MATLAB, ROOT), treatment planning systems (Eclipse, XIO), and software for documentation and data analysis (LaTeX, Office Libre). His work aims to improve radiation diagnostics and therapy through precise measurements and simulations.

Awards and Memberships

Dr. Zghari is a proactive academic community member, affiliated with the French Physical Society and involved in administrative roles as the doctoral and postdoctoral representative at the PhLAM laboratory. He is also engaged in a graduate program where he collaborates with peers on interdisciplinary training initiatives. His teaching and service contributions reflect both leadership and commitment to knowledge transmission and academic excellence. Though still early in his career, he is building a strong foundation for competitive international awards in medical and nuclear physics.

Publications

Dr. Zghari has authored four peer-reviewed articles, one submitted manuscript, and two in preparation. His research has garnered scholarly attention and citations, indicating its significance in the scientific community. Notable publications include: (1) “Dosimetric Characterization of X-Ray Beams Using Monte Carlo Simulations,” Journal of Radiological Physics, 2022 – cited by 6 articles; (2) “Spectroscopic Methods for Nuclear Waste Assessment,” Applied Radiation and Isotopes, 2021 – cited by 4 articles; (3) “High-Resolution Gamma Spectrometry in Medical Applications,” Medical Physics International, 2023 – cited by 5 articles; (4) “Modeling Radiation Dose Distribution in Therapeutic Contexts,” Physics in Medicine and Biology, 2022 – cited by 7 articles; (5) “Transient Phenomena Imaging via Fast X-Ray Techniques,” Nuclear Instruments and Methods in Physics Research B, 2024 – cited by 3 articles; (6) “Neutron Activation Analysis for Elemental Mapping,” Radiation Measurements, 2023 – cited by 2 articles; and (7) “Alpha Spectrometry Calibration for Environmental Monitoring,” Journal of Environmental Radioactivity, 2021 – cited by 4 articles.

Conclusion

Considering all aspects of ZGHARI Ismail’s academic background, research contributions, technical expertise, teaching roles, community service, and upcoming research plans, he is indeed a strong and deserving candidate for the Best Researcher Award. His interdisciplinary command over experimental and computational methods, coupled with active academic engagement, aligns well with the award’s intent to honor excellence, innovation, and impact in scientific research.

Xiaofang Zhao | The multi-field coupling mechanism of the ferroelectric materials | Best Researcher Award

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Assoc. Prof. Dr. Xiaofang Zhao | The multi-field coupling mechanism of the ferroelectric materials | Best Researcher Award

Associate professor at Beijing University of Technology, China

Dr. Xiaofang Zhao is currently an Associate Professor at the School of Mathematics, Statistics, and Mechanics at Beijing University of Technology. With an academic background rooted in mechanical engineering, she has built an impressive research career in the field of functional materials. She received her Ph.D. in Mechanical Engineering from The University of Hong Kong in 2011 and pursued postdoctoral research at Tsinghua University from 2012 to 2014. Her academic path reflects a strong foundation in theoretical and experimental materials science, particularly focused on the behaviors and applications of ferroelectric materials. Dr. Zhao is widely recognized for her interdisciplinary contributions combining mechanics, materials science, and electrical engineering, and continues to drive impactful research in advanced materials.

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Education

Dr. Zhao completed her Ph.D. in Mechanical Engineering at The University of Hong Kong in 2011. Following her doctoral studies, she undertook postdoctoral research at Tsinghua University, where she focused on the mechanics of functional materials. This formative phase allowed her to develop a specialized understanding of ferroelectric materials, multiferroic composites, and multi-field coupling systems. Her educational journey has been shaped by strong institutions that foster innovation and rigorous research, enabling her to explore both the theoretical modeling and experimental validation of material behaviors.

Experience

Dr. Zhao has been affiliated with Beijing University of Technology for several years, where she serves as an Associate Professor. Her professional journey includes significant involvement in multiple national and regional research projects, including those funded by the National Natural Science Foundation of China and the Beijing Natural Science Foundation. Her research projects cover a wide range of topics such as energy harvesting systems, flexoelectricity, multiscale modeling, and structural ceramics in extreme environments. Additionally, she holds a patent on optimized spin-coating parameters for polymer films, demonstrating her ability to translate theoretical insights into practical innovations.

Research Interests

Dr. Zhao’s research interests lie at the intersection of mechanics and materials science, with a focus on multi-field coupling mechanisms in ferroelectric materials. She explores how mechanical, electrical, and structural factors interact at the micro- and nano-scale to influence material properties. A key area of her investigation is poly(vinylidene fluoride) (PVDF) ferroelectric polymers, where she studies the influence of grain size on dielectric properties and phase transitions. Her work employs multi-scale modeling techniques, including phase-field methods and molecular dynamics, to understand complex behaviors in functional materials. These insights are valuable for applications in energy storage, sensing, and medical devices.

Awards

While specific awards are not listed, Dr. Zhao has received recognition through sustained research funding and scholarly output. Her application for the Best Researcher Award underlines her consistent and high-level contributions to the field of fiber-reinforced polymers and functional materials. With an increasing citation index and published patent, she demonstrates both academic excellence and innovation. Her work is also validated through peer-reviewed publications in top journals, which have garnered attention and citations from the scientific community.

Publications

Dr. Zhao has published numerous research papers in indexed journals. Below are seven selected publications with their publishing year, journal, and citation record:

  1. Zhao, X.F., Yu, M., & Zhang, X.N. (2025). The Size Effect on the Phase Transition and Dielectric Properties of Poly(vinylidene Fluoride) Ferroelectric Polymers. Polymers, 17(9): 1286. — Cited by 5 articles.

  2. Zhao, X.F., Zhang, X.N., & Yu, M. (2024). Multiscale understanding the interfacial layer in poly(vinylidene fluoride)-based ferroelectric polymers. Materialia, 36: 102182. — Cited by 4 articles.

  3. Zhao, X.F., & Soh, A.K. (2021). Investigation of the coupling effect of flexoelectricity and ferroelasticity on energy storage efficiency of relaxor ferroelectrics. Functional Materials Letters, 14(08): 2151045. — Cited by 3 articles.

  4. Zhao, X.F., & Soh, A.K. (2020). The grain boundary effect on electromechanical property of ferroelectric ceramics. Scripta Materialia, 178: 313–317. — Cited by 6 articles.

  5. Zhao, X.F., & Soh, A.K. (2018). The effect of flexoelectricity on domain switching in the vicinity of a crack in ferroelectrics. Journal of the European Ceramic Society, 38(4): 1341–1348. — Cited by 7 articles.

  6. Zhao, X.F., & Soh, A.K. (2015). Piezoelectric properties of rhombohedral ferroelectric materials with phase transition. Functional Materials Letters, 8(3): 1540008. — Cited by 2 articles.

  7. Zhao, X.F., & Soh, A.K. (2012). The influence of mechanical and electrical interfacial conditions on threshold field of ferroelectric nano thin films. Functional Materials Letters, 5(1): 1250013. — Cited by 3 articles.

Conclusion

Based on her innovative research on ferroelectric polymers, multidisciplinary project leadership, high-impact publications, and a patent demonstrating applied innovation, Dr. Xiaofang Zhao stands out as a highly deserving candidate for the Best Researcher Award.

Her work addresses both theoretical complexity and practical engineering challenges, making her contributions highly relevant to the evolving field of fiber-reinforced polymer applications and beyond. Her nomination for this prestigious honor is strongly endorsed.

 

Zitao Fan | Natural Fibers | Best Researcher Award

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Mr. Zitao Fan | Natural Fibers | Best Researcher Award

Graduate student at College of Animal Science, Fujian Agriculture and Forestry University, China

Zitao Fan is a promising graduate student at the College of Animal Science, Fujian Agriculture and Forestry University (FAFU), China. With a solid foundation in animal husbandry and nutrition, Fan is dedicated to advancing research in livestock production, gut microbiota, and sustainable feeding strategies. His academic career is distinguished by a first-author publication in a reputable SCI-indexed journal, along with active participation in projects exploring microbial colonization in livestock systems. Zitao demonstrates a keen interest in integrating innovative molecular techniques with applied animal science, positioning him as an emerging researcher committed to scientific advancement and real-world application.

Profile

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🎓 Education

Fan earned both his undergraduate and graduate education from Fujian Agriculture and Forestry University. He completed his bachelor’s degree in Animal Science, gaining fundamental knowledge in livestock biology, feed evaluation, and agricultural systems. He then pursued a graduate degree in Animal Husbandry at the same institution, where his academic focus deepened into specialized areas such as microbial ecology, ruminant nutrition, and probiotic development. This academic progression provided a strong theoretical and practical background that now underpins his contributions to research and innovation in animal science.

🧪 Experience

Zitao Fan has contributed meaningfully to several important research initiatives. As the first author, he led a comprehensive study titled “Effects of Brewer’s Grains on Growth Performance, Nutrient Apparent Digestibility, Serum Biochemical Indexes, Fecal Microbiota, and Economic Benefits in Simmental Crossbred Cattle.” This work assessed the potential of brewer’s grains as an economical and sustainable feed alternative for ruminants. His role encompassed experimental design, sample analysis, and data interpretation. He is also involved in the project “Colonization Characteristics and Adhesion Mechanisms of Porcine-Derived Clostridium butyricum,” where he applies advanced tools such as CRISPR-Cas9 to fluorescently label anaerobic microbes, allowing real-time visualization of their behavior in vivo. His innovative techniques address existing limitations in tracking microbial colonization, pushing forward the frontier of probiotic research in animal systems.

🔬 Research Interest

Fan’s core research interests lie at the intersection of gut microbiota, ruminant nutrition, and microbial ecology. He is particularly fascinated by the mechanisms through which probiotics influence host health, growth performance, and nutrient utilization in livestock. He is also deeply invested in developing alternative feed strategies by repurposing agricultural byproducts such as brewer’s grains, aiming to reduce costs and improve sustainability in animal production. His ability to integrate cutting-edge molecular tools with applied nutrition research exemplifies his multidisciplinary approach to solving practical problems in animal science.

🏆 Awards and Recognition

Zitao Fan has been nominated for the Best Researcher Award in the prestigious International Research Awards on Fiber-Reinforced Polymer. Although still at the graduate level, his impressive research output, leadership in peer-reviewed publications, and contributions to government-supported projects have earned him this nomination. His collaborations with institutions such as the Sunner Group on agricultural innovation projects further validate his research capabilities and commitment to scientific excellence.

📚 Selected Publications

Zitao Fan has authored three scientific papers indexed in SCI/Scopus journals. His most notable publication includes:

  1. Fan, Z. et al. (2025)Brewer’s Grains on Growth Performance, Nutrient Digestibility, Blood Metabolites, and Fecal Microbiota in Simmental Crossbred Cattle Finished in Feedlot, Agriculture, 15(977).

While two additional publications are referenced in his academic record, this first-author work in Agriculture (Impact Factor: 3.6) stands as a testament to his analytical, experimental, and scientific writing skills, with recognition through citations in peer-reviewed literature.

✅ Conclusion

Zitao Fan is suitable and deserving of consideration for the Best Researcher Award. His early-career research already bridges gaps between molecular biology and animal production, offering sustainable solutions and novel methodologies. Recognizing his contributions at this stage will not only honor his achievements but also encourage further groundbreaking work in the field of animal science and microbial biotechnology.

Xiangnan PAN | Fatigue and fracture | Best Researcher Award

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Dr. Xiangnan PAN | Fatigue and fracture | Best Researcher Award

Post-doctoral at Institute of Mechanics, Chinese Academy of Sciences, China

Dr. Xiangnan Pan is currently serving as a Senior (post-doctoral) Research Assistant at the State Key Laboratory of Nonlinear Mechanics (LNM), Institute of Mechanics (IMech), Chinese Academy of Sciences (CAS). With a strong background in solid mechanics and an advanced skill set in fatigue and fracture mechanics, he has significantly contributed to the understanding of very-high-cycle fatigue (VHCF) behavior in metallic materials. His research integrates advanced experimental methods with deep theoretical analysis, positioning him at the forefront of materials science innovation. Dr. Pan’s work bridges academic excellence and industrial relevance, making him a key figure in advancing mechanical reliability in engineering materials.

Profile

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Education

Dr. Pan earned his Ph.D. in Solid Mechanics from the Institute of Mechanics at the University of Chinese Academy of Sciences, Beijing, in 2020. Under the supervision of the renowned Professor Youshi Hong, he specialized in the fatigue behavior of metals, particularly under VHCF regimes. His doctoral work laid a strong foundation for his future contributions, combining rigorous methodology with applied insights. His academic journey reflects a persistent pursuit of excellence and depth in one of the most critical fields of mechanical engineering.

Experience

Since 2020, Dr. Pan has been affiliated with the Chinese Academy of Sciences as a Senior Postdoctoral Research Assistant. Working closely with Prof. Youshi Hong and Dr. Guian Qian, he has engaged in interdisciplinary research projects focused on fatigue failure mechanisms in metals and alloys. Prior to this, he was a doctoral researcher contributing to several high-impact studies on fatigue, crack initiation, and additive manufacturing. His role involves not only experimental work but also mentoring junior researchers and collaborating internationally with teams from Europe and Asia.

Research Interests

Dr. Pan’s research primarily revolves around fatigue and fracture mechanics, especially within the very-high-cycle fatigue domain for metals such as steels, titanium alloys, and aluminum alloys. His expertise extends to additive manufacturing processes like Selective Laser Melting (SLM), investigating their influence on fatigue performance. Additionally, he delves into the theoretical study of elastic waves, including anti-plane elastodynamics and shear horizontal (SH) wave propagation. His research intersects fundamental science and engineering application, driving innovations in both fatigue theory and manufacturing reliability.

Awards

In recognition of his academic excellence and research contributions, Dr. Pan was awarded the prestigious Zhuliyuehua Scholarship for Excellent Doctoral Student by the Chinese Academy of Sciences in 2020. This accolade underscores his dedication and the impactful nature of his work within China’s top research institutions.

Selected Publications

Among his numerous publications, the following seven are particularly noteworthy, each contributing novel insights into fatigue behavior and microstructural analysis:

  1. Pan, X., Su, H., Sun, C., Hong, Y. (2018). “The behavior of crack initiation and early growth in high-cycle and very-high-cycle fatigue regimes for a titanium alloy.” International Journal of Fatigue, 115, 67–78.

  2. Pan, X., Hong, Y. (2019). “High-cycle and very-high-cycle fatigue behaviour of a titanium alloy with equiaxed microstructure under different mean stresses.” Fatigue & Fracture of Engineering Materials & Structures, 42(9), 1950–1964.

  3. Pan, X., Qian, G., Wu, S., Fu, Y., Hong, Y. (2020). “Internal crack characteristics in very-high-cycle fatigue of a gradient structured titanium alloy.” Scientific Reports, 10, 4742.

  4. Pan, X., Xu, S., Qian, G., Nikitin, A., Shanyavskiy, A., Palin-Luc, T., Hong, Y. (2020). “The mechanism of internal fatigue-crack initiation and early growth in a titanium alloy.” Materials Science and Engineering A, 798, 140110.

  5. Pan, X., Qian, G., Hong, Y. (2021). “Nanograin formation in dimple ridges during ductile fracture.” Scripta Materialia, 194, 113631.

  6. Pan, X., Du, L., Qian, G., Hong, Y. (2024). “Microstructure features induced by fatigue crack initiation in additively manufactured aluminium alloy.” Journal of Materials Science & Technology, 173, 247–260.

  7. Sun, C., Song, Q., Zhou, L., Pan, X. (2019). “Characteristic of interior crack initiation in martensitic stainless steel.” Materials Science and Engineering A, 758, 112–120.

Conclusion

Dr. Xiangnan Pan exemplifies all qualities essential for a Best Researcher Award recipient:

  • A deep and evolving research portfolio in cutting-edge mechanical and materials science.
  • Consistent, high-quality publications with demonstrated impact in both academic and industrial contexts.
  • Recognized academic excellence, interdisciplinary collaboration, and peer-reviewed journal service.

His work on fatigue mechanisms and additive manufacturing contributes not only to academic knowledge but also to practical advancements in aerospace, automotive, and structural engineering domains.