Yang Zhang | Clinical Medicine | Best Researcher Award

Published on by Health Scientists

Prof. Dr. Yang Zhang | Clinical Medicine | Best Researcher Award 

Director | Department of Laboratory Medicine Chongqing University | China

Dr. Yang Zhang, Ph.D., currently serves as Director of the Department of Laboratory Medicine at Chongqing University Affiliated Renji Hospital and is an Associate Chief Physician, Postdoctoral Fellow in Clinical Laboratory Diagnostics, and doctoral and master’s supervisor at Chongqing University. She earned her Bachelor of Medicine in Laboratory Medicine (2008), Master of Medicine in Clinical Laboratory Diagnostics (2011), and Ph.D. in Clinical Laboratory Diagnostics (2015) from the Third Military Medical University, complemented by a Ministry of Education-sponsored visiting scholarship at Loma Linda University, USA (2012–2015). Her research centers on precision molecular diagnostics in oncology, with a special focus on POCT rapid diagnostic reagents and spectroscopy-based label-free diagnostic techniques. Dr. Zhang has led multiple high-level research projects, including three funded by the National Natural Science Foundation of China, one by the National Key R&D Program, and numerous provincial and military projects, securing over 6.88 million RMB in funding. She has published more than 40 academic papers as first or corresponding author, with 15 SCI-indexed articles, an H-index of 24, and a single paper cited over 280 times. Her scholarly contributions extend to 12 Chinese invention patents, 1 international PCT patent, and five co-edited scientific monographs, including works on molecular diagnostics and terahertz applications. Dr. Zhang’s achievements have been recognized with numerous honors, such as Chongqing High-Level Young Medical Talent (2022), the “Top Ten Young Scientists in Shapingba District” (2022), First Prize in the Chongqing Association for Science and Technology Innovation (2023), and the National Laboratory Medicine Science and Technology Innovation Award (2021). She also serves as a reviewer for the NSFC and contributes to several national professional committees in laboratory medicine. She has 1044 citations from 43 documents with an h-index of 16.

Profile: Scopus | ORCID 

Publications

1. Zhang, Y. (2020). ENT1 inhibition attenuates apoptosis by activation of cAMP/pCREB/Bcl2 pathway after MCAO in rats. Experimental Neurology, 331, 113362.

2. Zhang, Y. (2020). Identification of immune-related prognostic biomarkers based on the tumor microenvironment in 20 malignant tumor types with poor prognosis. Frontiers in Oncology, 10, 1008.

3. Tian, H., Yuan, C., Liu, Y., Xia, K., Li, M., Xie, F., Chen, Q., Chen, M., Fu, W., & Zhang, Y. (2020, July 28). A sample-to-answer quantification platform for point-of-care testing of circulating microRNAs based on allosteric spherical nanoprobe. Preprint.

4. Zhang, Y. (2020). Evaluation of the reliability of six commercial SERS substrates. Plasmonics, 15(5), 1323–1332.

5. Zhang, Y. (2020). Dataset concerning plasmonic thermal destruction of murine melanoma by gold nanoparticles obtained by green chemistry. Data in Brief, 30, 105370.

Jack Ogony | Infectious Diseases | Outstanding Scientist Award

Published on by Health Scientists

Dr. Jack Ogony | Infectious Diseases | Outstanding Scientist Award

Research Associate | Jaramogi Oginga Odinga University | Kenya

Dr. Jack Ogony is a distinguished Research Associate at the Institute for Health Research, Epidemiological Surveillance and Trainings (IRESSEF), with over 13 years of extensive experience in public health research across Sub-Saharan Africa. He is currently completing his PhD in Epidemiology and Biostatistics at Jomo Kenyatta University of Agriculture and Technology, having previously earned a Master’s in Epidemiology from the same institution, a Postgraduate Certificate in Monitoring and Evaluation from the Kenya Institute of Management, and a BSc in Medical Laboratory Science from Masinde Muliro University of Science and Technology. Dr. Ogony’s research primarily focuses on epidemiology, infectious diseases, climate change impacts on health systems, and vaccine and drug trial studies. He has contributed significantly to understanding the burden of Plasmodium falciparum and Dengue virus infections among under five in Western Kenya and the wider implications of climate change on African healthcare infrastructure. His work has been published in high-impact journals including Frontiers in Public Health, PLOS Global Public Health, and the East African Medical Journal, others, reflecting both the depth and breadth of his contributions. He has also served as Principal Investigator on multiple USAID-funded  under the Climate Adaptation Research Program (CARP). Recognized for his leadership and expertise, Dr. Ogony is a member of several professional organizations, including the American Society of Tropical Medicine and Hygiene and the African Society for Laboratory Medicine. He has earned awards for scientific excellence and serves as a peer reviewer for multiple journals, contributing to the advancement of global health research and capacity building in and infectious disease control across Africa. He has 28 citations from 5 documents with an h-index of 2.

Profile: Scopus | ORCID

Publications

1. Ogony, J., Menya, D., Mangeni, J. N., Ayodo, G., & Karanja, S. M. (2025). Public health facility vulnerabilities, preparedness and health outcomes for P. falciparum and Dengue virus infected children under 5 years with acute febrile illnesses in Western Kenya. Frontiers in Public Health, 13, 1526558.

2. Ogony, J., Mangeni, J., Ayodo, G., Amulen, E., Scopas, F., Juma, T., … & Hannah, C. (2025). The stifling burden of climate change on African public healthcare systems. Frontiers in Public Health, 13, 1559737.

3. Ogony, J., Karanja, S., Menya, D., Mangeni, J., & Ayodo, G. (2024). Prevalence and risk factors of Plasmodium falciparum and Dengue virus infections among children below 5 years with acute febrile illnesses in Kisumu and Busia Counties. East African Medical Journal, 101(12).

4. Owusu Agyare, B., Eder, P., Shenai, S., Chendi, B. H., Carlson, C., Iradukunda, A., Mukoka, M., Ogony, J., Manigart, O., O., O., Ogbaini-Emovon, E., & Seida, A. A. (2024). Potential implications of the climate crisis on diagnostics. PLOS Global Public Health, 4(3), e0002935.

5. Ogony, J., Obiero, B., Tukhuwa, B., Gondwe, C., Kampeta, E., Orner, C., & Tiruneh, T. (2021). Research knowledge translation activities in Africa: An outlook of the opportunities and obstacles. International Journal of Scientific Advances, 2(5), 8.

Longzhan Gan | Genomics | Best Researcher Award

Published on by Health Scientists

Dr. Longzhan Gan | Genomics | Best Researcher Award 

Lecturer | Guizhou University | China

Dr. Longzhan Gan is a Lecturer, Specially-appointed Professor, and Master’s Supervisor at the College of Life Sciences, Guizhou University, where he also serves as a Young Member of the Professional Committee of Microbiome of the Guizhou Provincial Society for Microbiology. He earned his Bachelor of Engineering in Biological Engineering (2013–2017) and Doctor of Engineering in Fermentation Engineering (2017–2022) from Sichuan University. His research focuses on extremophiles and microbial systematics, the exploration and development of novel exopolysaccharides, and lignin biodegradation with bacterial valorization for sustainable bioproducts. Dr. Gan has published extensively in high-impact journals such as Microbiology Spectrum, International Journal of Biological Macromolecules, Food Chemistry, Archives of Microbiology, and Journal of Microbiology and Biotechnology, with notable contributions including the discovery of novel halophilic bacterial species, structural characterization of exopolysaccharides, and development of biopolymer-based food packaging materials. His research has been recognized through multiple national and provincial research grants, including leadership of projects funded by the National Natural Science Foundation of China and the Guizhou Provincial Basic Research Program, underscoring his growing influence in microbial biotechnology. He has also contributed as an author to studies on bacterial pigments, plant growth-promoting salt-tolerant bacteria, and microbial valorization strategies, which reflect both fundamental and applied dimensions of his work. In recognition of his contributions, Dr. Gan has received academic honors and research awards, and he actively participates in professional organizations advancing microbiology and biotechnology in China. Alongside his teaching in Modern Molecular Biology, Genomics, and Genetic Engineering Techniques, he continues to mentor young scientists while also serving in editorial and peer-review capacities for international journals, reflecting his commitment to advancing microbiological sciences and fostering innovation in microbial biotechnology. He has 659 citations from 45 documents with an h-index of 15.

Profile:  Scopus

Publications

1. Xie, X., Xu, Z., Gan, L.*, Dong, C., Zhang, T., Huang, Y., He, T., Tian, Y., & Zou, X. (2025). Simultaneous organic/inorganic phosphate solubilization by Staphylococcus succinus NG-9 under saline-alkali conditions: Insights into its characteristics, mechanisms, and potential applications. Microbiology Spectrum, 13(9), e00490-25.

2. He, Z., Jiang, G., Gan, L.*, He, T., & Tian, Y. (2024). Bacterial valorization of lignin for sustainable production of value-added bioproducts. International Journal of Biological Macromolecules, 279, 135171.

3. Gan, L.*, Huang, X., He, Z., & He, T. (2024). Exopolysaccharide production by salt-tolerant bacteria: Recent advances, current challenges, and future prospects. International Journal of Biological Macromolecules, 264, 130731.

4. Xie, X., Gan, L.*, Wang, C., & He, T. (2024). Salt-tolerant plant growth-promoting bacteria as a versatile tool for combating salt stress in crop plants. Archives of Microbiology, 206, 341.

5. Huang, X., Gan, L.*, He, Z., Jiang, G., & He, T. (2024). Bacterial pigments as a promising alternative to synthetic colorants: From fundamentals to applications. Journal of Microbiology and Biotechnology, 34(11), 2153–2165.

Aynollah Naderi | Preventive Medicine | Best Researcher Award

Published on by Health Scientists

Prof. Aynollah Naderi | Preventive Medicine | Best Researcher Award

Associate Professor | Shahrood University of Technology | Iran

Dr. Aynollah Naderi, an Associate Professor in the Faculty of Sport Sciences at Shahrood University of Technology, Iran, is a distinguished researcher in the fields of sport sciences, injury prevention, and rehabilitation. He earned his B.A. in Medical Records from Shiraz University of Medical Sciences, followed by an M.Sc. in Sport Science from Razi University, and completed his Ph.D. in Sport Science at Bu-Ali Sina University, where his dissertation focused on corrective exercises for postural stability and spinal alignment. Dr. Naderi’s research spans the prevention and rehabilitation of sports injuries, psychosocial aspects of injury recovery, corrective exercise interventions, and performance enhancement strategies, with notable contributions to understanding injury mechanisms, rehabilitation outcomes, and athlete well-being. He has authored and co-authored over 50 peer-reviewed journal articles, including influential works in Journal of Athletic Training, Sports Health, Clinical Journal of Sport Medicine, Scandinavian Journal of Medicine & Science in Sports, and Journal of Sport & Exercise Psychology, alongside several systematic reviews and meta-analyses. In addition, he has translated key textbooks such as Kinesiology: The Skeletal System and Muscle Function and Exercise for Aging Adults, expanding access to evidence-based knowledge in Persian. Recognized as a Top Sport Sciences Researcher in 2020 and previously in 2014 during his student career, Dr. Naderi has also contributed as a reviewer for high-impact journals including BMJ Public Health, Journal of Athletic Training, and The Physician and Sportsmedicine. His blend of academic rigor, clinical relevance, and international collaborations has established him as a leading figure in advancing the intersection of sport sciences and health.

Profile: Google Scholar | Scopus | ORCID

Publications

1. Rostami, K. D., Naderi, A., & Thomas, A. (2019). Hip abductor and adductor muscles activity patterns during landing after anterior cruciate ligament injury. Journal of Sport Rehabilitation, 28(8), 871–876.

2. Naderi, A., Shaabani, F., Zandi, H. G., Calmeiro, L., & Brewer, B. W. (2020). The effects of a mindfulness-based program on the incidence of injuries in young male soccer players. Journal of Sport and Exercise Psychology, 42(2), 161–171.

3. Shaabani, F., Naderi, A., Borella, E., & Calmeiro, L. (2020). Does a brief mindfulness intervention counteract the detrimental effects of ego depletion in basketball free throw under pressure? Sport, Exercise, and Performance Psychology, 9(2), 197–207.

4. Naderi, A., Rezvani, M. H., & Degens, H. (2020). Foam rolling and muscle and joint proprioception after exercise-induced muscle damage. Journal of Athletic Training, 55(1), 58–64.

5. Yalfani, A., Naderi, E., Anbarian, M., & Biglarbaygi, A. (2013). The comparison of prevalence, type, and severity of injury in professional and amateur freestyle wrestlers. Journal of Research in Rehabilitation Sciences, 9(4)

Mubin Kiyani | Mental Health | Best Researcher Award

Published on by Health Scientists

Assoc. Prof. Dr. Mubin Kiyani | Mental Health | Best Researcher Award

Associate Professor| Shifa Tameer-e-Millat University| Pakistan

Dr. Mubin Mustafa Kiyani, currently serving as an Associate Professor at Shifa College of Medical Technology, Shifa Tameer-e-Millat University, Islamabad, is a distinguished health scientist with over two decades of academic and research experience in medical and life sciences. He earned his Ph.D. in Biotechnology (Medical Nanobiotechnology) from the International Islamic University, Islamabad, focusing on the synthesis and characterization of nanoparticles for potential applications in gout treatment, after completing an M.Phil. in Biochemistry from Quaid-i-Azam University with a thesis on homocysteine as a risk factor in coronary heart disease, alongside an M.Sc. in Biology and B.Sc. in natural sciences. His research spans medical nanobiotechnology, clinical biochemistry, molecular biology, cardiovascular biomarkers, metabolic disorders, and neurodegenerative diseases, contributing to advancements in nanomedicine and translational health sciences. Dr. Kiyani has published extensively in high-impact journals such as ACS Omega, Molecular Biology Reports, Inflammopharmacology, and the Journal of Molecular Neuroscience, with notable studies on cardiovascular risk factors, neuroinflammation, and therapeutic potential of nanoparticles in metabolic and inflammatory diseases. Recognized as an HEC-approved Ph.D. supervisor in “Medical Sciences” (PCD No: 18311), he has been entrusted with academic leadership roles, including Head of Department and chair of examination, admission, and quality committees. He has also served as magazine editor-in-chief and reviewer for multiple scientific journals, contributing to the dissemination of medical knowledge. His contributions to medical biotechnology and health sciences underscore his commitment to advancing innovative therapeutic approaches, mentoring young researchers, and strengthening biomedical research capacity in Pakistan and beyond.

Profile: Google ScholarScopus | Orcid

Publications

1. Kiyani, M. M., Memon, A. R., Amjad, M. I., Ameer, M. R., Sadiq, M., & Mahmood, T. (2017). Study of human biochemical parameters during and after Ramadan. Journal of Religion and Health, 56(1), 55–62.

2. Kiyani, M. M., Sohail, M. F., Shahnaz, G., Rehman, H., Akhtar, M. F., Nawaz, I., … (2019). Evaluation of turmeric nanoparticles as anti-gout agent: Modernization of a traditional drug. Medicina, 55(1), 10.

3. Kiyani, M. M., Butt, M. A., Rehman, H., Ali, H., Hussain, S. A., Obaid, S., Hussain, M. A., … (2019). Antioxidant and anti-gout effects of orally administered zinc oxide nanoparticles in gouty mice. Journal of Trace Elements in Medicine and Biology, 56, 169–177.

4. Rasool, F., Memon, A. R., Kiyani, M. M., & Sajjad, A. G. (2017). The effect of deep cross friction massage on spasticity of children with cerebral palsy: A double-blind randomised controlled trial. Journal of the Pakistan Medical Association, 67(1), 87–91.

5. Khan, M. Z., Shabbir, M. I., Saqib, Z., Gilani, S. A., Jogezai, N. U., Kiyani, M. M., … (2020). Investigation of polyphenol profile, antioxidant activity and hepatoprotective potential of Aconogonon alpinum (All.) Schur roots. Open Chemistry, 18(1), 516–536

Danni Wang | Medical Microbiology | Best Researcher Award

Published on by Health Scientists

Assoc. Prof. Dr. Danni Wang | Medical Microbiology | Best Researcher Award

Associate professor | Shanghai Jiao Tong University School of Medicine | China

Dr. Danni Wang is a biomedical researcher currently serving as a faculty member at a leading research institute in China, specializing in host–pathogen interactions and epigenetic regulation of infectious diseases. She earned her Ph.D. in Microbiology and Immunology after completing undergraduate studies in Biological Sciences, building a strong foundation in molecular biology and medical research. Her research focuses on the role of post-translational histone modifications, including acetylation and lactylation, in bacterial infection, immune evasion, and tumorigenesis, with particular emphasis on pathogens such as Salmonella, Shigella, and Fusobacterium nucleatum. Dr. Wang has published extensively in high-impact journals, with recent contributions in Nature Communications, Cell Reports, Nucleic Acids Research, PLoS Pathogens, and Virulence, where her studies have advanced understanding of how bacterial factors manipulate host immunity and disease progression. Her work on histone modifications in infection and cancer has been recognized through competitive funding from the National Natural Science Foundation of China and key laboratory grants. Among her notable honors, she has received recognition for her innovative approaches to uncovering the molecular mechanisms of host–pathogen interplay. In addition to her research achievements, Dr. Wang actively contributes to the scientific community as a reviewer and editorial board member for leading international journals in microbiology, infectious diseases, and molecular biology. With a career dedicated to bridging infection biology and epigenetic regulation, she continues to shape new therapeutic strategies targeting bacterial infections and related pathologies.

Profile: Scopus

Publications

1. Shao, D., Yao, Y.-F., & Wang, D. (2025). Ferroptosis and iron-based therapies in Pseudomonas aeruginosa infections: From pathogenesis to treatment. Virulence, 16(1), 2553787.

2. Zhou, X., Zhang, H., Wang, Y., Wang, D., Lin, Z., Zhang, Y., Tang, Y., Liu, J., Yao, Y.-F., Zhang, Y., & Pan, L. (2025). Shigella effector IpaH1.4 subverts host E3 ligase RNF213 to evade antibacterial immunity. Nature Communications, 16(1), 3099.

3. Zhou, N., Yu, J., Liu, X., Li, C., Tang, H., Lyu, L., Wu, C., Chen, Y., Zhang, J., Ni, J., Wang, D., Tao, J., Wu, W., Zhang, Y., Feng, Y., Chao, Y., Lu, J., He, P., & Yao, Y.-F. (2025). Within-host evolution of a transcriptional regulator contributes to the establishment of chronic Pseudomonas aeruginosa infection. Cell Reports, 44(1).

4. Yu, J., Tang, H., Zhou, N., Wang, Z., Huang, W., Chen, Y., Wang, D., Ni, J., Lu, J., & Yao, Y.-F. (2024). Dietary L-arabinose-induced gut dysbiosis exacerbates Salmonella infection outcome. mSystems, 9(8).

5. Ni, J., Li, S., Lai, Y., Wang, Z., Wang, D., Fan, Y., Tan, Y., Lu, J., & Yao, Y.-F. (2023). Global profiling of ribosomal protein acetylation reveals essentiality.

Babak Akbari | Biomedical Engineering | Best Researcher Award

Published on by Health Scientists

Assoc. Prof. Dr. Babak Akbari | Biomedical Engineering | Best Researcher Award 

Babak Akbari has established himself as a dedicated researcher with significant contributions to the fields of biomaterials, tissue engineering, and medical technology. His work has advanced knowledge in areas such as bone and cartilage regeneration, scaffold design, nanocomposites, dental materials, and controlled drug delivery systems, reflecting both scientific depth and interdisciplinary strength. By publishing widely and co-authoring specialized books, he has played an important role in bridging material sciences with health applications. His research demonstrates innovation in creating functional biomaterials that address critical challenges in orthopedics, dentistry, and regenerative medicine. While his contributions are noteworthy, expanding global collaborations, enhancing translational research towards clinical applications, and engaging with emerging domains like personalized medicine and sustainable biomaterials could further increase his impact. Overall, his body of work reflects excellence and commitment, making him a strong and deserving candidate for recognition through the Best Researcher Award.

Professional Profile

Google Scholar | Scopus Profile 

Education

Babak Akbari has built a strong educational foundation in the field of materials science and engineering, with a focus on its applications in medical technology and tissue engineering. His academic journey has been marked by progressive specialization in areas such as materials identification, selection, and advanced processing, which provided him with the technical knowledge required to explore innovative solutions for biomedical challenges. Over the course of his studies, he developed expertise in understanding the structural and functional aspects of materials, which later became central to his research on biomaterials, scaffolds, and nanocomposites for tissue regeneration. This educational background has equipped him with the skills to bridge engineering principles with health sciences, enabling him to contribute effectively to interdisciplinary research. By combining strong theoretical knowledge with practical problem-solving approaches, he has positioned himself as a capable academic who translates materials engineering into meaningful healthcare applications.

Experience

Babak Akbari has gained extensive professional experience through his academic and research career, particularly in the fields of medical technology, biomaterials, and tissue engineering. His work reflects a balance of teaching, mentoring, and conducting advanced research that bridges material sciences with biomedical applications. He has actively contributed to the development of innovative scaffolds, nanocomposites, and functional biomaterials designed for applications in bone and cartilage regeneration, dental health, and controlled drug delivery systems. His professional experience also includes collaborative projects that integrate engineering with medical sciences, resulting in interdisciplinary advancements published in national and international journals as well as contributions to specialized scientific books. Through his professional roles, he has consistently emphasized both knowledge creation and knowledge transfer, ensuring that his expertise supports the growth of future scientists while addressing pressing healthcare challenges. His career demonstrates a clear commitment to advancing science with real-world medical applications.

Research Interest

Babak Akbari’s research interests lie at the intersection of materials science, biomedical engineering, and health technology, with a particular focus on developing innovative solutions for regenerative medicine and tissue engineering. He is deeply engaged in exploring biomaterials such as nanocomposites, scaffolds, and functionalized polymers to support bone and cartilage regeneration, dental applications, and advanced drug delivery systems. His work also emphasizes the design of bioinspired and biocompatible materials that can mimic natural tissue environments, thereby enhancing cell growth and healing outcomes. In addition, he is interested in surface modification techniques, controlled drug release, and the integration of nanotechnology to improve the performance of medical devices and implants. By addressing both fundamental scientific questions and practical healthcare challenges, his research aims to create sustainable, effective, and clinically relevant materials that can transform medical treatments and improve patient outcomes across a wide range of applications.

Award and Honor

Babak Akbari has earned recognition for his valuable contributions to the advancement of biomaterials, tissue engineering, and medical technology through a combination of academic achievements, research excellence, and scholarly publications. His role as a co-author of internationally published scientific books and his contributions to highly regarded journals have positioned him as a respected figure within the scientific community. The impact of his work on scaffold development, regenerative medicine, and biomedical applications reflects innovation and dedication, which has been acknowledged by peers and collaborators in interdisciplinary research networks. His consistent efforts to bridge material sciences with clinical applications demonstrate the kind of impactful research that attracts appreciation and recognition at both national and international levels. These honors highlight his ability to address complex healthcare challenges through scientific inquiry, underscoring his standing as a committed researcher whose work continues to contribute meaningfully to the progress of medical and life sciences.

Research Skill

Babak Akbari possesses strong research skills that span across materials science, biomedical engineering, and tissue engineering, enabling him to contribute effectively to interdisciplinary health-related innovations. He has expertise in designing and fabricating scaffolds, nanocomposites, and biomaterials with tailored properties for applications in bone regeneration, cartilage repair, and dental treatments. His skills include advanced material characterization, surface modification, and the development of controlled drug delivery systems, which are crucial for enhancing biocompatibility and therapeutic outcomes. He is adept at integrating nanotechnology into medical applications, creating bioinspired materials that closely mimic natural tissue structures. In addition to laboratory techniques, he demonstrates strong analytical and problem-solving skills, applying scientific principles to address practical healthcare challenges. His ability to collaborate across disciplines and translate experimental findings into clinically relevant outcomes highlights his comprehensive research capability. These skills collectively position him as a researcher committed to advancing innovative biomedical technologies.

Publications Top Notes

Title: Deformation mechanism of epoxy/clay nanocomposite
Citation: 146
Year: 2007

Title: Fabrication and characterization of gold nanoparticle-doped electrospun PCL/chitosan nanofibrous scaffolds for nerve tissue engineering
Citation: 87
Year: 2018

Title: Preparation and characterization of poly ε-caprolactone-gelatin/multi-walled carbon nanotubes electrospun scaffolds for cartilage tissue engineering applications
Citation: 83
Year: 2020

Title: Antibiotics drug release controlling and osteoblast adhesion from Titania nanotubes arrays using silk fibroin coating
Citation: 82
Year: 2019

Title: Effect of surface modification on physical and cellular properties of PCL thin film
Citation: 40
Year: 2021

Conclusion

Babak Akbari’s research excellence, interdisciplinary contributions, and dedication to advancing health-oriented material sciences make him a strong candidate for recognition through the Best Researcher Award. With continued focus on global collaborations and clinical translation, his work has the potential to make even greater impact on the future of medical technology and healthcare innovations.

Xuye Chen | Biomedical Engineering | Best Researcher Award

Published on by Health Scientists

Prof. Xuye Chen | Biomedical Engineering | Best Researcher Award

Assistant to the Dean at Lu dong university | China

Xuye Chen stands out as a highly accomplished researcher whose work in microfluidics, MEMS, and intelligent sensing systems demonstrates both innovation and real-world relevance. Their extensive contributions to international journals and leadership in multiple research projects highlight a strong commitment to advancing science with direct applications in wearable technology, healthcare, and agriculture. The ability to mentor students who progress to advanced research roles further reflects their dedication to academic growth and knowledge transfer. While their achievements are impressive, expanding international collaborations, engaging more actively in professional societies, and contributing to wider knowledge dissemination through books or reviews could further strengthen their impact. Enhanced global consultancy and industry partnerships would also support the practical translation of their research. Overall, their track record of impactful innovations and research leadership makes them a strong candidate for the Best Researcher Award, with the potential for even greater influence in the future.

Professional Profile 

Scopus Profile

Education

Xuye Chen has pursued a strong academic journey that laid the foundation for their expertise in advanced scientific research. Their educational background is marked by a steady progression through rigorous training in science and engineering, equipping them with the technical skills and analytical mindset necessary to excel in their field. Over the course of their academic development, they cultivated a deep understanding of microfluidics, MEMS, and related interdisciplinary domains, which later shaped their research career. Through continuous learning and scholarly engagement, they have translated academic knowledge into impactful research contributions with applications in healthcare, wearable technology, and agriculture. Their educational pathway also reflects a commitment to integrating theoretical knowledge with practical innovation, enabling them to establish a strong reputation within the research community. This solid academic grounding has not only supported their personal growth but also empowered them to mentor and inspire future researchers in advancing scientific discovery.

Experience

Xuye Chen professional experience reflects a strong record of research, innovation, and leadership in the fields of microfluidics, MEMS, and intelligent sensing technologies. Over the years, they have consistently advanced interdisciplinary research with practical applications in healthcare, wearable devices, and modern agriculture, contributing to the development of impactful solutions that address real-world challenges. Their role in leading numerous funded research projects demonstrates effective project management, scientific rigor, and the ability to translate ideas into tangible outcomes. Beyond individual contributions, they have played a significant part in mentoring students and young researchers, fostering academic growth and encouraging innovation within the next generation of scientists. Their professional journey also includes extensive collaborations with industry through consultancy projects, enhancing the application of research in practical domains. This blend of academic excellence, applied research, and mentorship highlights a well-rounded professional trajectory that positions them as an influential figure in their field.

Research Interest

Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors.

Award and Honor

Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition.

Research Skill

Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field.

Publications Top Notes

Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite film
Year: 2025
Citation: 2

Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweat
Year: 2025
Citation: 1

Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid Nanoparticles
Year: 2025
Citation: 1

Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoring
Year: 2025
Citation: 1

Conclusion

Xuye Chen contributions to scientific research, innovation in MEMS and microfluidics, and their direct applications in healthcare and related fields make them highly deserving of recognition through the Best Researcher Award. Their strong academic output, project leadership, and applied impact align closely with the objectives of this award. With continued expansion in collaborative and outreach efforts, they have the potential to elevate their influence even further on the global research stage.

Aleksandra Lavrikova | Environmental Health | Best Researcher Award

Published on by Health Scientists

Dr. Aleksandra Lavrikova | Environmental Health | Best Researcher Award

Post – doctoral at EPFL | Switzerland

Aleksandra Lavrikova is a highly promising early-career researcher with strong academic and professional achievements that make her a suitable candidate for the Best Researcher Award. With a solid background in biotechnology, nanotechnology, and biophysics, and currently serving as a postdoctoral researcher at the Swiss Plasma Center, EPFL, she has developed expertise in advanced experimental methods and interdisciplinary plasma research. Her work focuses on microbial inactivation, biofilm eradication, wastewater treatment, and plasma–cell interactions, resulting in multiple publications in reputed international journals. She has secured independent grants as a principal investigator, received awards for scientific excellence, and actively participated in international collaborations, reflecting leadership potential and global engagement. While her profile could be further strengthened through more high-impact publications, expanded translational research, and greater leadership in multi-institutional projects, her contributions to plasma science and biomedical applications already demonstrate significant impact, making her a deserving candidate for recognition.

Professional Profile 

Scopus Profile | ORCID Profile 

Education

Aleksandra Lavrikova’s educational journey reflects a strong interdisciplinary foundation that has shaped her into a skilled and versatile researcher. She began her studies with a Bachelor’s degree in Biotechnology from the Moscow State Academy of Veterinary Medicine and Biotechnology where she gained essential knowledge in life sciences and laboratory research. Building upon this, she pursued a Master’s degree in Nanotechnology and Microsystems Technology at the People’s Friendship University of Russia  equipping her with advanced technical and analytical skills at the intersection of biology and engineering. Her academic path culminated in a Doctor of Philosophy (PhD) in Biophysics from Comenius University in Bratislava, Slovakia where she specialized in the study of plasma interactions with biological systems and microbial biofilms. This progression from biotechnology through nanotechnology to biophysics demonstrates her commitment to integrating multiple disciplines, enabling her to conduct impactful research with both scientific depth and practical relevance.

Experience

Aleksandra Lavrikova’s professional experience highlights her steady growth as a dedicated and innovative researcher in the fields of microbiology, plasma science, and biophysics. She began her career as a laboratory assistant at the Gamaleya Research Center of Epidemiology and Microbiology in Moscow where she gained valuable hands-on experience in molecular biology, microbiological analysis, and cell culture techniques. This early role laid the groundwork for her future focus on microbial systems and their interactions with novel technologies. Following the completion of her PhD, she advanced to her current role as a postdoctoral researcher at the Swiss Plasma Center, École Polytechnique Fédérale de Lausanne (EPFL). In this prestigious position, she has been actively involved in interdisciplinary projects exploring cold atmospheric plasma applications for microbial inactivation, biofilm control, and environmental treatments. Her international research collaborations, grant leadership, and contributions to high-impact publications reflect her growing independence and recognition as a promising researcher.

Research Interest

Aleksandra Lavrikova’s research interests lie at the intersection of microbiology, biophysics, and plasma science, with a focus on innovative solutions to biomedical and environmental challenges. She is particularly interested in the microbiological analysis of single cells, fungi, and bacterial biofilms, as well as the study of plasma–cell interactions at the molecular and cellular levels. Her expertise spans advanced molecular biology techniques, including PCR, protein and RNA isolation, immunoblotting, and flow cytometry, alongside spectroscopy and microscopy methods for in-depth characterization. A key area of her research involves the use of cold atmospheric plasmas and plasma-activated liquids for microbial inactivation, biofilm eradication, and wastewater treatment, highlighting the practical applications of her work in both healthcare and environmental sustainability. She is also engaged in studying mechanisms such as cell membrane integrity, DNA damage, and reactive oxygen species accumulation. This multidisciplinary approach demonstrates her commitment to advancing plasma-based technologies for global benefit.

Award and Honor

Aleksandra Lavrikova has received notable awards and honors that reflect her excellence, innovation, and growing recognition in the scientific community. she was a finalist in the Falling Walls Lab (Slovakia) competition, which highlights breakthrough ideas with global impact, underscoring the novelty and societal relevance of her research. The same year, she was awarded a Short Term Scientific Mission Grant to pursue collaborative research on cold plasma interactions with bacterial biofilms at University College Dublin, Ireland, demonstrating her active engagement in international scientific exchange. She also earned the Ján D. Skalný Prize for Best Oral Presentation at the Symposium on Application of Plasma Processes recognizing her outstanding ability to communicate complex research effectively. In addition, she successfully secured multiple competitive research grants as principal investigator during her PhD studies, which highlights her leadership and independence in scientific inquiry.

Research Skill

Aleksandra Lavrikova possesses a broad and advanced set of research skills that enable her to conduct interdisciplinary investigations in microbiology, plasma science, and biophysics. She is proficient in microbiological techniques, including the cultivation and analysis of bacteria, fungi, and biofilms, as well as in vitro manipulations involving virus-infected eukaryotic cells. Her expertise extends to molecular biology methods such as PCR, protein and RNA isolation, electrophoresis, and immunoblotting, which allow her to explore cellular mechanisms at the molecular level. She is skilled in spectroscopic and microscopic analyses, including fluorescence spectroscopy, absorption studies, scanning and transmission electron microscopy, and fluorescence microscopy, for detailed cellular and structural characterization. Additionally, she has experience with flow cytometry and animal experiments, further strengthening her versatility. A key aspect of her skill set is her ability to operate cold plasma discharges and study plasma–cell interactions, enabling innovative applications in biomedical and environmental research.

Publications Top Notes

Title: Flow cytometry study of Escherichia coli treated with plasma-activated water: confirming the absence of the viable but non-culturable state in bacteria
Authors: Agus, Rita; Avino, Fabio; Lavrikova, Aleksandra; Myers, Brayden; Furno, Ivo

Title: Non-thermal plasma coupled with photocatalysis for indoor air treatment at high air flow rates: effects on VOCs and bio-aerosols
Authors: Vazquez, Thomas; Lavrikova, Aleksandra; Wiedermann, Dalimír; Babic, Jan; Palko, Miroslav; Palko, Maroš; Machala, Zdenko

Title: Organic wastewater decontamination by cold plasmas – Improving bacteria inactivation by post-plasma treatment
Authors: Lavrikova, Aleksandra; Avino, Fabio; Agus, Rita; Furno, Ivo

Title: Eradication of single- and mixed-species biofilms of P. aeruginosa and S. aureus by pulsed streamer corona discharge cold atmospheric plasma
Authors: Lavrikova, Aleksandra; Janda, Mário; Bujdáková, Helena; Hensel, Karol

Title: Plasma-activated water retains antimicrobial properties against Escherichia coli after 72 h of storage
Authors: Agus, Rita; Pipoz, Laurens; Avino, Fabio; Lavrikova, Aleksandra; Myers, Brayden; Furno, Ivo

Conclusion

Aleksandra Lavrikova shows strong potential and already has a remarkable track record for an early-career researcher. Her multidisciplinary expertise in biotechnology, nanotechnology, and plasma biophysics, combined with her successful independent grants, peer-reviewed publications, and international collaborations, make her a strong candidate for the Best Researcher Award. She stands out particularly for her contributions to plasma applications in microbiology, biofilms, and environmental treatment, which have both scientific and societal relevance. With continued growth in high-impact publications, expanded leadership roles, and stronger translational applications of her work, she has the potential to become an internationally recognized leader in her field. At her current trajectory, she is highly suitable for recognition, and awarding her would not only honor her achievements but also encourage further groundbreaking contributions to science.

Dr. Dana Chase | Oncology | Best Researcher Award

Published on by Health Scientists

Dr. Dana Chase | Oncology | Best Researcher Award

Professor at University of California| United States

Dr. Dana M. Chase is a distinguished gynecologic oncologist whose career integrates clinical excellence, academic leadership, and impactful research. As an associate professor and fellowship program director, she has significantly advanced women’s cancer care through innovative research, particularly in ovarian, cervical, and uterine malignancies, with her findings widely published in leading journals and presented at major international conferences. Her academic training and subspecialty expertise provide a strong foundation for her role in bridging clinical practice with evidence-based research, while her leadership in mentoring fellows and trainees highlights her dedication to education. Dr. Chase has also been recognized with numerous awards for patient care, teaching, and research, underscoring her influence across multiple domains. Beyond academia, she contributes actively to community engagement and patient advocacy, further broadening the reach of her work. With a clear commitment to advancing gynecologic oncology and inspiring future researchers, she stands out as an exemplary candidate for recognition.

Professional Profile

Scopus Profile | ORCID Profile

Education

Dr. Dana M. Chase has pursued a comprehensive and rigorous educational path that laid the foundation for her distinguished career in gynecologic oncology. She began her academic journey with an undergraduate degree in Latin American Studies, followed by postbaccalaureate premedical studies that strengthened her scientific background. She then earned her medical degree, which was followed by a residency in obstetrics and gynecology, where she gained extensive clinical training and developed a strong interest in women’s health and oncology. Building upon this, she completed a highly specialized fellowship in gynecologic oncology, where she refined her expertise in managing complex gynecologic cancers and gained advanced skills in both research and clinical practice. This blend of humanities, medical training, and subspecialty fellowship has enabled her to combine a compassionate, patient-centered approach with scientific rigor. Her educational background not only shaped her clinical and research capabilities but also prepared her for leadership in academic medicine.

Experience

Dr. Dana M. Chase has built an impressive professional career that spans academic medicine, clinical practice, and research leadership in gynecologic oncology. She has served in key academic roles, including assistant, associate, and full professorships at leading medical institutions, where she has combined teaching, mentorship, and program development with advancing cancer care. As a fellowship program director, she has guided the training of future specialists, emphasizing innovation, evidence-based practice, and patient-centered care. Clinically, she has held positions as a gynecologic oncologist across major hospitals and cancer centers, where she provided advanced surgical and medical management for women with complex cancers. Her leadership extends beyond the clinic into research, with active participation in national and international collaborations, presentations at major conferences, and contributions to peer-reviewed publications. Recognized for her excellence in teaching, patient care, and research, Dr. Chase’s professional journey highlights her as a dedicated physician, educator, and influential researcher.

Research Interest

Dr. Dana M. Chase’s research interests center on advancing the understanding and treatment of gynecologic cancers, with a strong focus on ovarian, cervical, and uterine malignancies. She is particularly committed to exploring novel therapeutic approaches, including the integration of targeted therapies and innovative clinical trial designs that aim to improve patient survival and quality of life. Her work also extends to studying the role of the vaginal microbiome, inflammation, and genetic factors in cancer development and progression, highlighting her interest in precision medicine and translational research. Dr. Chase has been actively involved in collaborative projects that bridge laboratory science with clinical applications, ensuring that discoveries translate into tangible benefits for patients. Additionally, she is passionate about survivorship research, patient advocacy, and educational outreach, which complement her scientific contributions by addressing the holistic needs of women with cancer. Her research embodies a vision of innovation, collaboration, and improved patient outcomes.

Award and Honor

Dr. Dana M. Chase has received numerous awards and honors that reflect her excellence in research, teaching, clinical care, and leadership in gynecologic oncology. Early in her career, she was recognized with prestigious research and presentation awards from leading professional organizations, acknowledging her contributions to advancing the understanding and management of gynecologic cancers. She has earned accolades such as merit and travel awards from oncology foundations, humanitarian and teacher of the year honors, and recognition for outstanding research papers and clinical presentations. Her commitment to patient care has also been highlighted through physician recognition awards and consistent listings among top doctors in major medical publications. These distinctions not only demonstrate her academic and clinical achievements but also underscore her influence as a mentor, educator, and advocate. Collectively, her awards and honors signify a career dedicated to innovation, excellence, and service, establishing her as a respected leader in women’s health and oncology.

Research Skill

Dr. Dana M. Chase possesses a wide range of research skills that reflect her expertise in gynecologic oncology and her commitment to advancing scientific knowledge in women’s cancer care. She is highly skilled in designing and conducting clinical trials, particularly those exploring new therapeutic strategies, targeted treatments, and survivorship outcomes. Her ability to integrate translational research with clinical applications demonstrates proficiency in bridging laboratory findings with patient-centered interventions. She has extensive experience in data analysis, interpretation of complex clinical outcomes, and dissemination of results through peer-reviewed publications and international conference presentations. Additionally, she is adept at developing collaborative research initiatives, both nationally and internationally, fostering multidisciplinary partnerships that enhance the scope and impact of her work. Her research skills extend beyond technical expertise to include mentorship, as she effectively guides trainees and junior researchers in developing their scholarly work. Collectively, these strengths underscore her role as a capable and innovative researcher.

Publications Top Notes

Title: Navigating complexities of polymorphic microbiomes in endometrial cancer
Authors: Dana M. Chase, et al.

Title: Real-world post-2020 first-line maintenance treatment patterns in patients with advanced ovarian cancer in the US
Authors: Dana M. Chase, et al.

Title: Quality-adjusted time without symptoms of disease progression or toxicity of treatment in patients with primary advanced or recurrent endometrial cancer treated with dostarlimab plus carboplatin-paclitaxel versus carboplatin-paclitaxel
Authors: Dana M. Chase, et al.

Title: Treatment patterns and outcomes by mismatch repair/microsatellite instability status among patients with primary advanced or recurrent endometrial cancer in the United States
Authors: Dana M. Chase, et al.

Title: Clinical Trial Screening in Gynecologic Oncology: Defining the Need and Identifying Best Practices
Authors: Dana M. Chase, et al.

Conclusion

In conclusion, Dr. Chase is a highly deserving candidate for the Best Researcher Award, as her contributions demonstrate excellence in clinical care, education, and translational research. Her leadership in advancing gynecologic oncology, dedication to training the next generation of specialists, and consistent engagement in impactful research reflect a career committed to improving both science and society. With her proven track record of innovation and service, combined with the potential to expand into new frontiers of cancer research, she stands as a strong role model and an exemplary figure in the academic and medical community.