Praveen Kumar Dubey | Health Technology | Best Researcher Award

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Dr. Praveen Kumar Dubey | Health Technology | Best Researcher Award 

Assistant Professor | Indian Institute of Packaging | India

Dr. Praveen Kumar Dubey is a food science and technology academic whose work spans advanced food processing, functional food development, and innovative biotechnological interventions for nutrition and food sustainability. With formal training in biotechnology, food process engineering, and food science and technology, he has cultivated expertise at the intersection of food engineering, food biotechnology, product innovation, and health-oriented food systems. His academic journey includes service at reputed academic and research institutions, where he has contributed to teaching, laboratory development, and mentoring in food science and nutrition disciplines. Dr. Dubey’s research portfolio encompasses food reformulation for health benefits, valorization of agro-industrial by-products, gluten-free and functional food product development, utilization of pseudocereals and bioactive-rich plant resources, and application of emerging processing technologies for improved physicochemical and nutritional properties. His published scientific works reflect collaborative engagements with national and international researchers addressing critical challenges in food quality, safety, shelf-life enhancement, and value addition to underutilized crops and bioresources. His research outputs appear in internationally recognized journals covering food chemistry, food engineering, food biotechnology, and nutraceutical innovation, contributing to evidence-based advancements in sustainable food systems and consumer-focused health solutions. Dr. Dubey’s professional affiliations include membership in leading scientific societies in food science, reinforcing his commitment to collaborative advancement and knowledge dissemination in the field. Beyond scholarly publications, his academic service includes manuscript evaluation for reputable peer-reviewed journals, highlighting his credibility as an emerging expert in food technology. His work carries significant societal relevance, emphasizing nutrient-dense and inclusive food solutions, waste-to-wealth strategies, and science-based innovations that support public health nutrition, food security, and resource-efficient food processing. Through continuous research, teaching, and professional outreach, Dr. Dubey contributes to the global mission of developing safer, healthier, and more sustainable food systems. He has 95 citations from 16 documents with an h-index of 7.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Singh, H., Blennow, A., Gupta, A. D., Kaur, P., Dhillon, B., Sodhi, N. S., & Dubey, P. K. (2022). Pulsed light, pulsed electric field and cold plasma modification of starches: Technological advancements & effects on functional properties. Journal of Food Measurement and Characterization.

2. Dubey, P. K., Shukla, R. N., Srivastava, G., Mishra, A. A., & Pandey, A. (2019). Study on quality parameters and storage stability of mango coated with developed nanocomposite edible film. International Journal of Current Microbiology and Applied Sciences.

3. Pandey, A., Mishra, A. A., Shukla, R. N., Dubey, P. K., & Vasant, R. K. (2019). Development of the process for whey based pineapple beverage. International Journal of Current Microbiology and Applied Sciences.

4. Manoharan, S., Dubey, P. K., & Sharma, M. (2024). Recent advances in deep‐fat frying through pretreatments and edible coating to reduce oil absorption. Journal of Food Process Engineering.

5. Dubey, P. K., Kumar, K. S., Rawson, A., Anandakumar, S., Baskaran, N., & Others. (2023). Effect of pulsed electric field on physicochemical properties of rice and black gram fermented batter. Journal of Food Process Engineering.

Fatemeh Molaabasi | Health Technology | Best Researcher Award

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Assist. Prof. Dr. Fatemeh Molaabasi | Health Technology | Best Researcher Award 

Assistant Professor | Breast Cancer Research Center, Motamed Cancer Institute, ACECR | Iran

Dr. Fatemeh Molaabasi is an accomplished scholar in analytical chemistry, biomaterials, and medical nanotechnology, serving as an Assistant Professor at the Motamed Cancer Institute, ACECR, where she contributes to the Biomaterials and Tissue Engineering and Medical Nanotechnology Research Groups. Her research advances bio-inspired nanomaterials for drug delivery, biosensing, regenerative medicine, cancer diagnostics, and theranostics, with a strong emphasis on clinically translatable platforms. She has produced a substantial body of peer-reviewed work in international journals and scholarly books and holds a record of impactful scientific contributions evidenced by a high citation profile and sustained editorial and reviewing responsibilities in leading journals. Dr. Molaabasi has pioneered innovative tools including tumor apoptosis assay platforms, viral detection systems, electrochemical biosensing strips, three-dimensional tumor models, and targeted diagnostic devices for circulating tumor cells, demonstrating excellence in merging chemistry, biology, engineering, and clinical needs. Her portfolio also includes the development of medical diagnostic kits, rapid assays, and dialysis-based devices designed to support metastatic cancer patients, reflecting a strong translational orientation toward patient-centered technology development. She has secured national funding, engaged in interdisciplinary and global research collaborations with leading academic and biomedical centers, and contributed to national innovation initiatives and industry-linked diagnostic technology development. Beyond research and innovation, she has actively served in editorial boards and scientific committees, reviewed national scientific grants, and mentored emerging researchers. Dr. Molaabasi’s work embodies a commitment to strengthening early cancer detection, precision medicine, and bio-nanotechnology infrastructure, while advancing sustainable and biocompatible nanoplatforms. Her efforts contribute to global research in cancer diagnostics and biosensors and to the development of affordable, high-performance biomedical technologies, reinforcing her role as a leader in next-generation healthcare innovation and applied nanoscience. She has 1274 citations from 55 documents with an h-index of 22.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Fathi Ganje Lou, E., Rezayan, A. H., Malekmohamadi, M., Abbasi, V., et al. (2025). Very simple and ultra-sensitive fluorescence resonance energy transfer aptasensor for turn-on C-reactive protein detection in biological matrices.

2. Feizi, F., Molaabasi, F., Ezati, M., Shamsipur, M., Mousavi, F., Roshanfekr, A., et al. (2025). Ratiometric fluorescence chiral sensors for pH monitoring and its applications in indicator paper and bioimaging. Analytical Chemistry.

3. Molaabasi, F., Mohseni, N., Hajipour-Verdom, B., Agheli, A., et al. (2025). Ultra-efficient label-free cell death detection based on multifunctional colorimetric fluorescent in-situ silver nanocluster/graphene nanohybridzyme and its application in environmental biological samples and cellular imaging. Biosensors and Bioelectronics.

4. Shahrashoob, M., Dehshiri, M., Yousefi, V., Moassesfar, M., Saberi, H., et al. (2025). Optical and electrochemical biosensors for detection of pathogens using metal nanoclusters: A systematic review. Biosensors.

5. Besharati, M., Radi, H. C., & Molaabasi, F. (2025). A highly sensitive and simple platform for enzyme-free detection of ethanol based on a nano-porous glassy carbon electrode with electrodeposited Ni nanoparticles. Russian Journal of Electrochemistry.

Miguel Garcia-Gonzalez | Translational Research | Innovative Research Award

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Dr. Miguel Garcia-Gonzalez | Translational Research | Innovative Research Award

Research group leader | FIDIS/IDIS | Spain

Dr. Miguel García González is a distinguished biomedical researcher and Group Leader at the Instituto de Investigación Sanitaria de Santiago (IDIS/CHUS) in Spain, specializing in Molecular Genetics and Developmental Biology of Kidney Diseases. He earned his Ph.D. in Molecular Biology from the University of Santiago de Compostela, where he developed a strong foundation in genetics, molecular mechanisms, and translational nephrology. His research focuses on understanding the genetic and molecular bases of polycystic kidney disease (PKD) and related hereditary disorders, integrating genomic, cellular, and developmental biology approaches to identify novel therapeutic targets. Dr. García González has authored more than 40 peer-reviewed publications in high-impact journals such as Nature Medicine, PNAS, Kidney International, and Human Molecular Genetics, contributing significantly to the field’s understanding of renal pathophysiology. His work has received numerous national and international research grants and awards, recognizing his excellence in scientific innovation and mentorship. He actively participates in editorial and peer-review roles for several leading journals in nephrology and molecular biology, further influencing the direction of biomedical research. In addition to his research contributions, Dr. García González is deeply committed to training young scientists, supervising doctoral and postdoctoral researchers, and fostering interdisciplinary collaboration across clinical and molecular domains. His pioneering work continues to advance precision medicine approaches in nephrology, bridging basic science discoveries with clinical applications aimed at improving outcomes for patients with genetic kidney diseases. He has 1913 citations from 50 documents with an h-index of 20.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. A comparative proteomic, transcriptomic and glycomic analysis of extracellular vesicle isolation techniques highlights ExoGAG efficiency for a more complete identification of breast milk molecular signaling pathways. (2025). Cell Communication and Signaling.

2. Therapeutic opportunities in polycystic kidney and liver disease through extracellular matrix dynamics. (2025). Biochemical Pharmacology.

3. Characterization of recurrent UMOD variants (p.C255Y and p.Q316P) in a Galician cohort: Genotype–phenotype correlation and clinical implications. (2025). Nefrología.

4. Characterization of the functional component in human milk and identification of the molecular mechanisms undergoing prematurity. (2025). Clinical Nutrition.

5. HNF1B transcription factor: Key regulator in renal physiology and pathogenesis. (2025).

Vincelet Jobikha A | Health Technology | Young Scientist Award

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Ms. Vincelet Jobikha A | Health Technology | Young Scientist Award

Research Scholar | Saveetha Engineering College | India

Dr. Vincelet Jobikha Arul Swamy is a dedicated researcher and Ph.D. scholar in Physics at Saveetha Engineering College, affiliated with Anna University, India. She obtained her B.Sc. in Physics from Infant Jesus College of Arts and Science for Women and her M.Sc. in Physics from Muslim Arts College, Kanniyakumari, both with first-class distinction. Her doctoral research focuses on the synthesis and characterization of rare earth–doped tellurite glass and glass ceramics for advanced radiation shielding applications and energy-efficient nanomaterials. Dr. Vincelet has published her work in reputed international journals, including Radiation Physics and Chemistry (Elsevier), and has several manuscripts under review. She holds four patents on innovative glass compositions for optical and radiation protection uses. Actively engaged in the academic community, she has presented at more than 15 national and international conferences, including events organized by IIT Madras, Periyar University, and Heriot-Watt University (UK). Her contributions to material science research have earned her the International Best Researcher Award (SCOPUS INDEX 2025) for excellence in glass ceramics. Beyond her research, she has participated in specialized GIAN courses at JNTU Hyderabad and Madurai Kamaraj University, expanding her technical expertise in nanomaterials and advanced coatings. Dr. Vincelet also contributes as an editorial and review board member for emerging journals in materials science and applied physics. Her research continues to bridge innovation and application, with a focus on developing sustainable materials for radiation safety and renewable energy technologies.

Profiles: Google Scholar | ORCID

Featured Publications

1. Vinothkumar, P., Yamini, B., Praveenkumar, S., & Jobikha, A. V. (2025). Synthesis, structural, and optical properties of lead-free Tm³⁺ ions doped zinc tellurite glass and Ho³⁺ ions doped zinc borophosphate glass for radiation shielding application. Radiation Physics and Chemistry, 234, 112795.

2. Isac, S. J., Vinothkumar, P., Dhinakaran, A. P., & Praveenkumar, S. (2025). Physical, optical, and luminescent characteristics of Sm³⁺ doped glass suitable for yellow laser, warm white LED, and radiation shielding applications. Optics and Laser Technology, 182.

3. Dhatchaiyini, K., Vinothkumar, P., Isac, S. J., Dinesh, A., Ammavasi, M., et al. (2024). Growth and physiochemical properties of semi-organic ammonium pentaborate dihydrate single crystal. Zeitschrift für Physikalische Chemie, 238(8), 1413–1430.

4. Praveenkumar, S. (2024). Tourism and local communities: Entrepreneurship as a catalyst for economic development. Library of Progress – Library Science, Information Technology & Computer, 44(3).*

5. Sagarwal, N., Garg, R., Kumar, B., Praveenkumar, S., Dhabliya, D., Nagesh, Y., et al. (2024). Cyber crimes: An interdisciplinary perspective. Computer Science Engineering and Emerging Technologies, 563–567.

Yang Zhang | Clinical Medicine | Best Researcher Award

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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.

Babak Akbari | Biomedical Engineering | Best Researcher Award

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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.

Na Wu | Biosensor Early Diagnosis | Best Research Article Award

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Dr. Na Wu | Biosensor Early Diagnosis | Best Research Article Award

Assistant Researcher at Fujian Medical University, China

Dr. Na Wu is a promising researcher in the field of bioanalytical chemistry, with a strong focus on molecular diagnostics and nucleic acid-based detection systems. Her recent publication in Talanta (2026), exploring high-affinity poly-cytosine DNA modulated metal-organic frameworks for hepatocellular carcinoma detection, exemplifies her innovative approach. She has published extensively in prestigious journals such as ACS Nano, Analytical Chemistry, and Small, often as a lead or corresponding author. Her research combines nanotechnology, machine learning, and DNA nanodevices to develop ultrasensitive, non-invasive diagnostic tools for early cancer detection. With international academic training and a leadership role in a major research project at Fujian Medical University, Dr. Wu demonstrates both technical excellence and research initiative. While increased emphasis on clinical translation and broader recognition metrics could enhance her profile further, her current contributions position her as a strong candidate for the Best Research Article Award, with impactful and forward-thinking scientific work.

Professional Profile

Education🎓

Dr. Na Wu has a strong academic foundation in chemistry, beginning with her Bachelor’s degree in Applied Chemistry from Zhoukou Normal University (ZKNU), China, in 2017. She continued her academic journey by pursuing a Doctorate in Chemistry at Northeastern University (NEU), Shenyang, where she worked under the guidance of Prof. Ting Yang. To enhance her research skills and international experience, Dr. Wu undertook a joint doctoral training program at the University of Waterloo (UW), Canada, from March 2022 to September 2023, under the mentorship of Prof. Juewen Liu, a renowned expert in nanotechnology and biosensing. This international exposure significantly enriched her expertise in advanced analytical techniques, DNA nanotechnology, and biomedical applications. Her academic training across these prestigious institutions has equipped her with a solid interdisciplinary background, blending theoretical knowledge with hands-on research experience. This educational trajectory has laid the groundwork for her innovative contributions to molecular diagnostics and bioanalytical chemistry.

Professional Experience📝

Dr. Na Wu has built a promising professional career grounded in both academic teaching and advanced research. She began her professional journey in March 2024 as a Lecturer at Fujian Medical University (FJMU), where she is actively involved in teaching and leading innovative research projects in molecular diagnostics. Concurrently, she is engaged in a post-doctoral position at Fuzhou University (FZU), set to run from March 2025 to March 2027, allowing her to further deepen her expertise in biomedical applications and collaborative scientific inquiry. Dr. Wu also leads a major research initiative funded by Fujian Medical University, focusing on high-level talent development in nucleic acid delivery systems and liquid biopsy technologies. Her dual roles highlight a balance of academic instruction and high-impact research leadership. Through these positions, she contributes significantly to the fields of analytical chemistry and biosensor development, demonstrating both scientific excellence and commitment to advancing healthcare-related research.

Research Interest🔎

Dr. Na Wu’s research interests lie at the intersection of analytical chemistry, molecular diagnostics, and nanobiotechnology, with a particular focus on the development of innovative nucleic acid-based detection systems. She is dedicated to designing advanced biosensors and DNA nanodevices for the early diagnosis of cancers and infectious diseases. Her work emphasizes the use of three-dimensional DNA machines, metal-organic frameworks, and machine learning-assisted platforms to enable ultrasensitive, specific, and non-invasive diagnostic tools. Dr. Wu is also deeply engaged in liquid biopsy research, exploring biomarkers such as circulating DNA and D-amino acids for clinical applications. Additionally, she investigates nucleic acid delivery systems that enhance the precision and efficiency of molecular diagnostics. Her interdisciplinary approach bridges chemistry, biology, and data science, aiming to translate laboratory innovations into real-world healthcare solutions. Through her research, Dr. Wu seeks to address pressing medical challenges by advancing the next generation of rapid and reliable diagnostic technologies.

Award and Honor🏆

Dr. Na Wu has earned recognition for her contributions to the field of analytical chemistry and molecular diagnostics through prestigious research roles and funding support. She was awarded the Fujian Medical University High-Level Talent Research Startup Funding Project, which she leads, reflecting her potential as an emerging leader in scientific innovation. This competitive grant supports her ongoing work in developing advanced nucleic acid-based biosensors for early disease detection. Her selection for a joint doctoral training program at the University of Waterloo, Canada, is another significant academic honor, highlighting her international research capabilities and collaboration with globally recognized experts. Additionally, her publications in high-impact journals such as Analytical Chemistry, ACS Nano, and Talanta further affirm the scientific community’s acknowledgment of her research excellence. These accomplishments demonstrate Dr. Wu’s commitment to advancing healthcare diagnostics and position her as a rising scholar with a growing influence in the fields of nanobiotechnology and molecular sensing.

Research Skill🔬

Dr. Na Wu possesses a diverse and advanced set of research skills that span analytical chemistry, molecular biology, and nanotechnology. She is highly proficient in designing and fabricating DNA-based biosensors, including three-dimensional DNA machines and nucleic acid delivery systems, for ultra-sensitive disease diagnostics. Her technical expertise includes synthesis and modification of nanomaterials, molecular recognition techniques, signal amplification strategies, and integration of machine learning algorithms for enhanced data analysis and diagnostic accuracy. Dr. Wu is skilled in employing liquid biopsy approaches to detect cancer biomarkers and has experience with techniques such as electrochemiluminescence, fluorescence spectroscopy, and metal-organic frameworks for biomolecular interactions. Her strong background in interdisciplinary research enables her to bridge gaps between chemistry, biology, and clinical applications. Additionally, she demonstrates competence in scientific writing, project management, and international collaboration, having worked in top-tier labs in both China and Canada. These research skills collectively underpin her ability to lead innovative and impactful scientific projects.

Conclusion💡

Dr. Na Wu is a strong and deserving candidate for the Best Research Article Award, particularly for her recent paper in Talanta (2026) on the detection of hepatocellular carcinoma biomarkers using poly-cytosine DNA and metal-organic frameworks. Her research demonstrates originality, scientific rigor, and relevance to modern health diagnostics. With a growing publication record and leadership in funded research, she represents the next generation of innovators in bioanalytical chemistry. Strengthening her clinical collaborations and visibility in global research communities will further elevate her candidacy in future evaluations.

Publications Top Noted✍

  1. Title: High-affinity poly-cytosine DNA modulated metal-organic framework-DNA interactions and their application in detection of hepatocellular carcinoma biomarker
    Authors: Wu, N.; Chen, X.; Wang, Y.-T.; Jiang, Y.; Gao, Z.
    Year: 2026
    Citations: [Citation data not available yet – newly published]

  2. Title: Hydrogen peroxide regulated split-type electrochemiluminescence sensing platform for non-invasive detection of gastric cancer-associated D-amino acids
    Authors: Li, J.; Lai, M.-C.; Zhong, Y.-M.; Chen, Y.-L.; Wu, N.; Chen, W.; Peng, H.-P.
    Year: 2025
    Citations: [Citation data pending]

  3. Title: An extracellular vesicle microRNA-initiated 3D DNAzyme motor for colorectal cancer diagnosis
    Authors: Fan, Q.; Sun, X.-H.; Wu, N.; Wang, Y.-H.; Wang, J.-H.; Yang, T.
    Year: 2024
    Citations: [Check citation databases]

  4. Title: Multispectral 3D DNA Machine Combined with Multimodal Machine Learning for Noninvasive Precise Diagnosis of Bladder Cancer
    Authors: Wu, N.; Wong, K.-Y.; Yu, X.; Zhao, J.-W.; Zhang, X.-Y.; Wang, J.-H.; Yang, T.
    Year: 2024
    Citations: [Available on Scopus/Google Scholar]

  5. Title: Demoralization, apathy, and depression affect cognition and motor symptoms in Parkinson’s disease
    Authors: Zhu, X.; Gan, J.; Wu, N.; Zhang, Y.; Liu, Z.
    Year: 2024
    Citations: [Check Web of Science/Scopus]

  6. Title: Cytosine-Rich DNA Binding Insulin Stronger than Guanine-Rich Aptamers
    Authors: Wu, N.; Zandieh, M.; Yang, T.; Liu, J.
    Year: 2023
    Citations: [Check Scopus]

  7. Title: DNA-functionalized LnNP-MNP assemblies for dual-mode sensing of alkaline phosphatase
    Authors: Sun, X.-Y.; Wei, X.; Wu, N.; Liu, X.; Chen, M.-L.; Wang, J.-H.
    Year: 2023
    Citations: [Check Scopus]

  8. Title: Detection of HIV/HCV virus DNA with homogeneous DNA machine-triggered in situ formation of silver nanoclusters
    Authors: Wu, N.; Zhang, H.-C.; Sun, X.-H.; Guo, F.-N.; Feng, L.-X.; Yang, T.; Wang, J.-H.
    Year: 2022
    Citations: [Scopus indexed]

  9. Title: Immunolabeling lanthanide nanoparticles for alpha-fetoprotein detection using ICP-MS
    Authors: Sun, X.; Wei, X.; Liu, X.; Zhang, X.; Wu, N.; Liu, J.; Wang, Y.; Chen, M.; Wang, J.
    Year: 2022
    Citations: [Check databases]

  10. Title: Efficient Pathogen Capture and Sensing Promoted by Dynamic Deformable Nanointerfaces
    Authors: Cao, Y.; Wu, N.; Li, H.-D.; Xue, J.-W.; Wang, R.; Yang, T.; Wang, J.-H.
    Year: 2022
    Citations: [Published in Small – high impact]

  11. Title: Ratiometric 3D DNA Machine Combined with Machine Learning Algorithm for Early Urinary Disease Screening
    Authors: Wu, N.; Zhang, X.-Y.; Xia, J.; Li, X.; Yang, T.; Wang, J.-H.
    Year: 2021
    Citations: [Likely cited – check ACS Nano]

  12. Title: Three-Dimensional DNA Nanomachine Biosensor for Cancer-Related Gene Detection
    Authors: Wu, N.; Wang, Y.-T.; Chang, M.-L.; Chen, X.-W.; Yang, T.; Wang, J.-H.
    Year: 2020
    Citations: [Check citation database