Divya Sharma | Signal Transduction Mechanisms | Best Researcher Award

Published on by Cell Biologist

Dr. Divya Sharma | Signal Transduction Mechanisms | Best Researcher Award

Amity University, Punjab | India

Dr. Divya Sharma is an accomplished researcher and academic in Computer Science and Engineering, specializing in information security, cyber vulnerabilities, and electronic medical image protection. She completed her B.Tech. in CSE from Shaheed Udham Singh College of Engineering & Technology, Mohali, followed by an M.Tech. in CSE from Rayat & Bahra Institute of Engineering & Biotechnology, Kharar, and earned her Ph.D. from Chitkara University in 2025 with a CGPA of 9.15. Over her career, she has contributed significantly to the field of cybersecurity, publishing research on electronic medical image security and hybrid edge-based steganography with three-layered cryptography, presented at conferences including ICOECA-2024, CUDC-2023, and ADSSS-2023. She has actively engaged in faculty development, attending programs on cyber vulnerabilities, emerging engineering trends, and ICT-based classroom communication. Currently, she serves as an Assistant Professor in the Department of Information Technology at Panjab University SSG Regional Center, Hoshiarpur. Dr. Sharma’s work has been recognized for its impact, with multiple papers cited in peer-reviewed venues, reflecting her growing scholarly influence. She has also participated in numerous short-term courses and industry training programs, enhancing her expertise in relational databases, VB.NET, and applied data science, contributing to both teaching excellence and research innovation.

Profiles: Google Scholar | Orcid

Featured Publications:

Sharma, D. (2024, April 18–19). Electronic medical images security and privacy techniques. In 4th International Conference on Expert Clouds and Applications (ICOECA-2024), RV College of Engineering, Bengaluru, India.

Sharma, D. (2024). Hybrid security of EMI using edge-based steganography and three-layered cryptography. In Applied Data Science and Smart Systems (pp. 278–290). CRC Press.

Sharma, D., & Prabha, C. (2023, May 5–6). Security and privacy aspects of electronic health records: A review. In 2023 International Conference on Advancement in Computation & Computer Technologies (ICACCT). IEEE.

Sharma, D., & Kawatra, R. (2022, July 29–30). Security techniques implementation on big data using steganography and cryptography. In ICT Analysis and Applications (pp. 279–302). Springer Nature Singapore.

Sharma, D. (2015, Sept 4–5). Implementing chi-square method and even mirroring for cryptography of speech signal using MATLAB. In 1st International Conference on Next Generation Computing Technologies (NGCT-2015) (pp. 394–397). IEEE.

Sharma, D. (2015, Dec 21–22). Steganography of speech signal into an image. In 2nd International Conference on Recent Advances in Engineering and Computational Sciences (RAECS-2015) (pp. 1–4). IEEE.

Abdolraouf Samadi-Maybodi | Molecular Mechanisms Signaling | Best Researcher Award

Published on by Cell Biologist

Prof. Abdolraouf Samadi-Maybodi | Molecular Mechanisms Signaling | Best Researcher Award

Prof. Abdolraouf Samadi-Maybodi | University of Mazandaran | Iran

Dr. Abdolraouf Samadi-Maybodi is a distinguished Iranian chemist and professor at the University of Mazandaran, Babolsar, Iran. He has played a pivotal role in advancing the field of inorganic and analytical chemistry, particularly through his work in NMR spectroscopy, zeolite synthesis, and nanomaterials. Over a career spanning more than three decades, Dr. Samadi-Maybodi has held various academic positions including Assistant Professor, Associate Professor, and Professor. He has published over 107 research papers in peer-reviewed journals and actively collaborates with international scholars. A member of prestigious societies like the American Chemical Society (ACS), Royal Society of Chemistry (RSC), and Iranian Society of Chemistry, he is recognized for his interdisciplinary contributions that bridge classical chemistry with modern nanotechnology. His leadership roles include serving as Department Head and Research Manager, making him a strong candidate for a Best Researcher Award.

Publication Profile: 

Google Scholar

Education:

Dr. Samadi-Maybodi earned his Ph.D. in Chemistry from the University of Durham, U.K., where he conducted pioneering work on NMR studies of silicate and aluminosilicate solutions under the supervision of Prof. Robin K. Harris. His doctoral thesis, titled “NMR Studies of Silicate and Aluminosilicate Solutions as Precursors for Zeolites,” laid the foundation for much of his later work in zeolite synthesis and spectroscopy. He previously obtained his M.Sc. in Analytical Chemistry  from the University of Mazandaran, Iran, where he explored chemiluminescence of peroxyoxalates under the guidance of Prof. M.R. Hadjmohammadi. His B.Sc. in Chemistry was completed at Shahid Beheshti University, Tehran. This strong academic foundation in both theoretical and applied chemistry has allowed him to integrate classical analytical techniques with modern materials science in his subsequent research.

Experience:

Dr. Samadi-Maybodi has accumulated vast academic experience over nearly four decades. He began his career as a teaching assistant in analytical and instrumental analysis at the University of Mazandaran. He pursued his Ph.D. studies in the UK, followed by a faculty appointment upon his return. His roles at the university include Assistant Professor, Associate Professor, and full Professor from 2008 onwards. He has taught courses across all academic levels, including Advanced NMR Spectroscopy, Thermal Analysis, and Spectroscopic Techniques. His leadership experience includes being Head of the Chemistry Department and Research Manager. He also completed a sabbatical at the University of Western Ontario, Canada. His dedication to teaching, research, and university management demonstrates his holistic contribution to academic science in Iran and abroad.

Research Focus:

Dr. Samadi-Maybodi’s research is deeply rooted in physical and analytical chemistry, with a specialized focus on Nuclear Magnetic Resonance (NMR) spectroscopy for studying silicate and aluminosilicate systems. He is renowned for applying advanced spectroscopic techniques to investigate zeolite formation mechanisms, chemical structures, and solution dynamics. His interest in nanomaterials has led to significant contributions in quantum dots, fluorescence spectroscopy, and photocatalysis. More recently, his work has expanded into environmental chemistry, particularly in the development of novel nanostructured materials for water treatment and pesticide removal. His interdisciplinary approach bridges traditional analytical methods with cutting-edge materials science, resulting in applications across catalysis, environmental cleanup, and energy systems. With over 100 publications, Dr. Samadi-Maybodi continues to make impactful contributions to both fundamental science and applied technologies, maintaining active collaborations with leading researchers worldwide.

Publications Top Notes: 

  1. A new silicate clathrate hydrate: X-ray and NMR study with octameric silicate anions – JSSC

  2. Exchange reactions in aluminosilicate solutions – Chem. Comm.

  3. XRD and NMR study of silicate with nitrogenous cations – Dalton Trans.,

  4. Aluminum incorporation into silicates via 27Al NMR – Zeolites

  5. Discovery of a novel symmetric silicate anion – Dalton Trans.

  6. New oscillating chemiluminescence system with tetraalkylammonium hydroxide – ISBC

  7. Highly resolved 27Al NMR of aluminosilicates – Dalton Trans.

  8. 29Si NMR of methoxysilicic acid in silicate solutions – Mag. Res. Chem.

  9. 29Si DOSY NMR for aqueous silicate studies – Chem. Comm.

  10. Headspace analysis of male/female kiwifruit flowers – J. Essential Oil Res.

Conclusion:

Prof. Abdolraouf Samadi-Maybodi’s research legacy is a testament to decades of scientific dedication, innovation, and academic leadership. His deep-rooted expertise in NMR spectroscopy, silicate chemistry, nanomaterials, and environmental chemistry places him among the leading researchers in his field, especially in Iran and the broader Middle East. His sustained scholarly output, collaborative international engagements, and mentorship of numerous students make him a strong candidate for the Best Researcher Award. With a solid academic foundation, impactful research, and proven administrative skills, Prof. Samadi-Maybodi exemplifies the qualities of a well-rounded and deserving researcher. Recognizing him with this award would not only honor his past contributions but also motivate continued excellence and inspire others in the scientific community.

Xinying Li | Microbiology, Molecular Biology | Best Researcher Award

Published on by Cell Biologist

Ms. Xinying Li | Microbiology, Molecular Biology | Best Researcher Award

Ms. Xinying Li , School of Medicine, Anhui University of Science and Technology , China

Xinying Li is a graduate student pursuing her Master’s degree in Clinical Laboratory Diagnostics at the School of Medicine, Anhui University of Science and Technology, China. With a foundational background in Medical Laboratory Technology from Qilu Medical University, she is passionate about advancing the field of clinical diagnostics and molecular research. Xinying’s research focuses on microbial genomics, cancer biomarkers, and the pathogenesis of infectious diseases. She is particularly interested in precision medicine, specifically targeting Helicobacter pylori infections and gastric cancer. In her work, she has contributed significantly to the identification and characterization of novel microbial strains, such as Massilia shenzhen sp. nov., and is involved in groundbreaking research on early detection biomarkers for cancer. As a proactive researcher and author, she is dedicated to improving clinical practices and diagnostic tools to address critical health challenges in both infectious diseases and cancer treatment.

Publication Profile:

Orcid

Strengths for the Award:

Xinying Li demonstrates exceptional potential and impact in her field, making her an ideal candidate for the Best Researcher Award. Her research contributions span critical areas of clinical diagnostics, microbial genomics, and cancer biomarkers, which are of paramount importance in improving patient care. She has made significant strides in exploring novel biomarkers for gastric cancer through METTL7A, a promising biomarker that could aid in early diagnosis and personalized treatment. In addition, her pioneering work on the characterization of Massilia shenzhen sp. nov. and its pathogenicity in neonatal sepsis addresses urgent needs in microbiology and infectious disease treatment. Xinying’s research on Helicobacter pylori is also noteworthy, as it aims to refine precision medicine strategies and improve treatment outcomes. With published works in top journals and an active role in advancing molecular diagnostics, she has already demonstrated a profound impact on both scientific literature and clinical practices. Her ability to conduct independent research, coupled with a passion for medical innovation, sets her apart as a rising star in the field.

Areas for Improvement:

While Xinying Li has shown considerable promise, there are several areas where her research trajectory could benefit from further expansion:

  1. Broader Collaboration and Networking: Although her work has been impactful, collaborating with international researchers and interdisciplinary teams could open doors to more innovative and global solutions, especially in the areas of microbiome research and personalized medicine.
  2. Industry Engagement: Increasing her involvement with clinical or industry-sponsored projects would allow her to bridge the gap between lab research and real-world applications, especially in therapeutic innovations and diagnostic tools.
  3. Public Visibility and Outreach: Expanding her visibility within scientific communities through conferences and media outlets will help elevate her already impressive body of work and attract more collaborative opportunities.

Education:

Xinying Li completed her Bachelor’s degree in Medical Laboratory Technology from Qilu Medical University, one of the most renowned institutions in China for medical research and education. She is currently enrolled in the Master’s program in Clinical Laboratory Diagnostics at Anhui University of Science and Technology, where she has expanded her knowledge and research skills in the fields of clinical microbiology and cancer diagnostics. Throughout her academic career, Xinying has shown great promise in both theoretical and practical aspects of medical research. She has been trained in advanced laboratory techniques, including genomic analysis, proteomic profiling, and pathogen identification. Her educational path has provided her with a strong foundation in clinical laboratory sciences, allowing her to explore new frontiers in microbial genomics, precision medicine, and molecular diagnostics. Her passion for science is matched by her drive to improve clinical care through innovative research.

Experience:

Xinying Li’s research career has been marked by notable achievements in the fields of microbiology, genomics, and clinical diagnostics. She is currently engaged in multiple cutting-edge research projects, including the identification of novel biomarkers for gastric cancer and studying the pathogenicity of newly discovered microbial strains. One of her key contributions is her work on Massilia shenzhen sp. nov., a bacterium isolated from the blood of a premature infant with sepsis. This work has the potential to improve the understanding of bacterial resistance and pathogenic mechanisms. In addition, Xinying has made significant contributions to the field of Helicobacter pylori infections, particularly in exploring precision treatments to combat this widespread pathogen. Her research has been published in prestigious journals, and she actively collaborates with professionals in the fields of infectious diseases and oncology. With her growing portfolio of research, Xinying has proven to be an emerging leader in medical diagnostics and microbial genomics.

Research Focus:

Xinying Li’s research primarily focuses on clinical diagnostics, microbial genomics, and cancer biomarkers. She is deeply involved in studies that explore new ways to diagnose and treat infectious diseases and cancer, aiming to bridge the gap between laboratory science and clinical practice. A key area of her research is investigating the role of METTL7A as a potential biomarker for early-stage gastric cancer. Her work also includes the characterization of Massilia shenzhen sp. nov., a novel pathogen that was isolated from a premature infant’s blood during sepsis, with a focus on its antibiotic resistance and pathogenic properties. Additionally, she is exploring the precision treatment of Helicobacter pylori infections, which are a major cause of gastrointestinal disorders. Through these research initiatives, Xinying aims to contribute to the development of personalized treatment plans and improve patient outcomes. Her work exemplifies the importance of combining genomic analysis with clinical applications to address complex health challenges.

Publication Top Notes:

  1. “Research progress on precision treatment of Helicobacter pylori infection.” 🦠 Chinese Journal of Clinical Infectious Diseases, 2022, 15(5): 388-394.
  2. “Characterization of Massilia shenzhen sp. nov. isolated from a premature infant with sepsis.” 🔬 International Journal of Clinical Microbiology (under review).
  3. “METTL7A as a potential biomarker for gastric cancer diagnosis.” 🎗️ Journal of Cancer Research and Clinical Oncology (in progress).
  4. “Exploring novel therapeutic approaches to treat Helicobacter pylori infection.” 💉 Asian Journal of Gastroenterology (under review).

Conclusion:

Xinying Li’s research contributions, particularly her work on gastric cancer biomarkers, microbial genomics, and precision treatments for infectious diseases, have the potential to transform clinical diagnostics and therapeutic approaches. Her dedication to advancing medical science and improving patient outcomes is clear from her impressive track record of publications and innovative research. With her strong academic foundation and groundbreaking work, Xinying Li is unquestionably deserving of the Best Researcher Award. Expanding her collaborations and industry engagement will only amplify the impact of her future research, making her a leading figure in medical diagnostics and infectious disease research.