Somayeh Ebrahimibarough | Cell Biology | Best Researcher Award

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Prof. Somayeh Ebrahimibarough | Cell Biology | Best Researcher Award 

Associate Professor, at Tehran University of Medical Sciences, Iran.

Dr. Somayeh Ebrahimibarough is an accomplished biomedical researcher specializing in regenerative medicine, tissue engineering, and stem cell biology. She holds a Ph.D. in Cell and Developmental Biology and is currently a Research Professional 5 at the University of Minnesota’s Department of Biomedical Engineering. Her research focuses on human iPSC-derived cardiac organoids, with a particular interest in extracellular matrix (ECM) effects on cardiomyocyte differentiation. With extensive expertise in mass spectrometry-based proteomics, cardiac tissue engineering, and stem cell-based therapies, Dr. Ebrahimibarough has also contributed significantly to peripheral nerve regeneration and stem cell-derived cancer treatments. She has experience in GMP-compatible cell manufacturing, ensuring the safe development of tissue-specific stem cell transplantation strategies for clinical applications. As a dedicated interdisciplinary researcher, she collaborates on cutting-edge studies in cardiac regeneration and disease modeling, advancing the frontiers of biomedical science.

Professional Profile

Google Scholar

🎓 Education

Dr. Somayeh Ebrahimibarough has a strong academic background in biology and regenerative medicine. She earned her Ph.D. in Developmental Biology from Kharazmi University (2008–2013), where she specialized in stem cell differentiation and regenerative therapies. Before that, she completed her M.S. in Cell and Developmental Biology at Kharazmi University (2006–2008) and a B.S. in Biology from Mohaghegh Ardabili University (2002–2005). She later pursued a Postdoctoral Fellowship in Tissue Engineering and Regenerative Medicine at Tehran University of Medical Sciences (2013–2015). Throughout her education, she has focused on stem cell applications, biomaterials, and molecular biology, which have shaped her career in biomedical research and tissue engineering.

đź’Ľ Experience

Dr. Ebrahimibarough has a diverse professional background in biomedical research and biotechnology. She is currently a Research Professional 5 at the University of Minnesota (2024–present), investigating ECM effects on cardiomyocyte differentiation in iPSC-derived cardiac organoids. Previously, she was a faculty member at Tehran University of Medical Sciences (2015–2024), where she led research on stem cell-based therapies, exosome treatments, and neural tissue engineering. She has also served as a Production Manager at Inocells Company in the Netherlands (2019–2023), overseeing infertility treatment projects using mesenchymal stem cells under GMP conditions. Her extensive experience in stem cell biology, tissue engineering, and regenerative medicine has positioned her as a leader in the field, contributing to groundbreaking research in cell-based therapies and biomaterials.

🔬 Research Interests

Dr. Ebrahimibarough’s research interests lie at the intersection of regenerative medicine, tissue engineering, and stem cell biology. She is particularly focused on human iPSC-derived cardiac organoids, studying the extracellular matrix’s role in cardiomyocyte differentiation. Her work also extends to biomaterials and tissue scaffolds for nerve regeneration, with an emphasis on injectable hydrogels, electrospun scaffolds, and decellularized matrices. Additionally, she is engaged in mass spectrometry-based proteomics, analyzing cellular signaling pathways and extracellular matrix components. Dr. Ebrahimibarough is passionate about GMP-compliant cell manufacturing and clinical translation of stem cell therapies, developing strategies for tissue-specific stem cell transplantation. Her interdisciplinary approach integrates bioengineering, molecular biology, and translational medicine, aiming to advance therapeutic applications in cardiac and neural regeneration.

🏆 Awards & Recognitions

Dr. Ebrahimibarough has received several prestigious awards for her contributions to biomedical research:

  • One-Year Salary Grant for Postdoctoral Research (2014) – Awarded by the Iran National Science Foundation (INSF) for excellence in tissue engineering research.
  • Research Excellence Program Grant (2017) – Recognized by USC–IRAN (Spain) for outstanding contributions to stem cell-based regenerative medicine.
  • Educated Researcher Award (2018) – Received from the National Institute for Medical Research Development (NIMAD), Iran, honoring her groundbreaking work in biomedical sciences.

Her awards reflect her dedication to advancing regenerative medicine and translational research, impacting the fields of tissue engineering and stem cell therapy.

đź“š Top Noted Publications

Dr. Ebrahimibarough has published extensively in high-impact journals, contributing to the advancement of biomedical research. Here are some of her key publications:

  • Tissue Engineering and Stem Cell-Based Therapeutic Strategies for Premature Ovarian Insufficiency
    This review addresses the potential of tissue engineering and stem cell therapies in treating premature ovarian insufficiency (POI). It discusses various stem cell sources and biomaterials that can restore ovarian function, highlighting the challenges and ethical considerations in developing these therapeutic strategies.

    PubMed

  • Cell-Free Therapy Based on Extracellular Vesicles
    This article explores the application of exosome-based therapies as a promising approach for nerve regeneration and functional recovery. It emphasizes the role of mesenchymal stem cell-derived exosomes in overcoming challenges associated with cell-based therapies for peripheral nerve injuries.

    PubMed Central

  • Embryonic Stem Cells Differentiated into Neuron-Like Cells Using SB431542 on Nanofibrous Scaffolds
    The study investigates the differentiation of embryonic stem cells into neuron-like cells using the small molecule SB431542 on nanofibrous scaffolds composed of polylactic acid (PLA), chitosan (CS), and wax. The findings suggest that this combination enhances neural differentiation, offering potential in neural tissue engineering applications.

    experts.umn.edu

  • Cell-Based Therapy for Spinal Muscular Atrophy
    This research focuses on the potential of cell-based therapies in treating spinal muscular atrophy (SMA). It evaluates the efficacy of various stem cell types in restoring motor function and highlights the challenges in translating these therapies into clinical practice.

    experts.umn.edu

  • Stimulation of Osteogenic Differentiation of Induced Pluripotent Stem Cells Using Bioactive Glasses
    The study examines the effect of bioactive glasses on the osteogenic differentiation of induced pluripotent stem cells (iPSCs). The results indicate that bioactive glasses can effectively stimulate iPSCs to differentiate into osteoblast-like cells, suggesting their potential in bone tissue engineering.

    frontiersin.org

  • Preparation of Bilayer Tissue-Engineered Polyurethane/Poly-L-Lactic Acid Vascular Grafts
    This research involves the development of bilayered vascular grafts using polyurethane and poly-L-lactic acid. The study assesses the grafts’ mechanical properties and biocompatibility, indicating their potential application in vascular tissue engineering.

    Journal of Biological Engineering

Conclusion

Dr. Somayeh Ebrahimibarough is a highly qualified and impactful researcher in biomedical engineering, regenerative medicine, and stem cell biology. Her strong publication record, global research collaborations, and technical expertise make her a top contender for a Best Researcher Award. To further strengthen her case, securing high-profile grants, increasing industry collaborations, and enhancing leadership roles in global biomedical communities could be beneficial.

Alexander Shirokov | Molecular Biology | Best Researcher Award

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Dr. Alexander Shirokov | Molecular Biology | Best Researcher Award 

Senior Researcher at the Laboratory of Immunochemistry, at Ibppm ras, Russia.

Dr. Shirokov Alexander Alexandrovich, Ph.D., is an esteemed Associate Professor specializing in microbiology and immunochemistry. He serves as a Senior Researcher at the Laboratory of Immunochemistry and heads the Center for Collective Use “Symbiosis” at the Institute of Biochemistry and Physiology of Plants and Microorganisms (IBPPM) of the Russian Academy of Sciences. Additionally, he leads the Central Research Center at Saratov National Research State University. Dr. Shirokov’s research spans antigens, cell biology, and optical technologies, with a focus on glioblastoma and brain vascular systems. His extensive involvement in educational and public activities, including mentoring students and chairing scientific conferences, highlights his dedication to advancing scientific knowledge and nurturing young talent. Recognized for his contributions to science, Dr. Shirokov has received prestigious awards and continues to drive innovation in immunochemical and biotechnological research.

Profile

Scopus

ORCID

🎓 Education

Dr. Shirokov earned his Specialist degree in Organic and Bioorganic Chemistry from Saratov State University (1999–2004). He pursued postgraduate studies in Microbiology (specialty 03.02.03) at the Institute of Biochemistry and Physiology of Plants and Microorganisms, Russian Academy of Sciences (2004–2008), where he earned his Candidate of Biological Sciences (Ph.D.). His academic focus encompassed microbiology, biochemistry, and biotechnology. This solid educational foundation equipped him with expertise in immunochemistry, confocal microscopy, and cell biology. Dr. Shirokov’s teaching contributions include specialized courses on aerobiology and light microscopy. He has supervised numerous diploma projects and postgraduate theses, demonstrating a strong commitment to academic mentorship and research excellence.

👨‍💼 Experience

Dr. Shirokov has held multiple distinguished positions in academia and research. Since 2020, he has been a Senior Researcher at the Smart Sleep Laboratory and Head of the Central Research Center at Saratov National Research State University. Concurrently, he serves as a Senior Researcher and Center Head at IBPPM, focusing on immunochemistry and biotechnology. His leadership extends to mentoring students, managing diploma projects, and supervising postgraduate research. He has organized national scientific conferences and contributed to regional scientific councils, shaping policy and fostering young scientists. His career is marked by collaboration on high-impact projects in brain research, immunotherapy, and biotechnological innovation, enhancing our understanding of complex biological systems and their medical applications.

🔬 Research Interests 

Dr. Shirokov’s research spans immunochemistry, cell biology, and biotechnology. His primary focus areas include antigen characterization, glioblastoma research, and the vascular and lymphatic systems of the brain. Utilizing advanced techniques like confocal and electron microscopy, he explores cellular structures and immune responses. His work on brain immunology investigates innovative treatments for neurodegenerative diseases and brain tumors, such as photomodulation for Alzheimer’s therapy and glioblastoma suppression. Dr. Shirokov also delves into bionanotechnology, developing microencapsulation methods for targeted drug delivery. Keywords central to his research include cytology, histology, and optical technologies, reflecting a multidisciplinary approach to solving complex biomedical challenges.

🏆 Awards 

Dr. Shirokov has received several prestigious accolades. In 2010 and 2015, he was awarded certificates of honor by the Ministry of Industry and Energy of the Saratov Region for his scientific achievements. In 2013, he won the P.A. Stolypin Youth Prize, recognizing outstanding contributions to science by young researchers in the Saratov region. His leadership roles in scientific councils and conferences further underscore his recognition within the academic community. These awards highlight Dr. Shirokov’s dedication to advancing microbiology and immunochemistry, fostering innovation, and contributing to the scientific community’s growth. His efforts have not only elevated research standards but also inspired future generations of scientists.

📚Top Noted Publications 

Dr. Shirokov has published extensively in peer-reviewed journals, advancing knowledge in immunochemistry and neurobiology. Notable works include:

  • Shirokov, A., et al. (2024).
    Title: New insights into phototherapy of glioblastoma: the meningeal lymphatics and sleep.
    Journal: European Physical Journal Special Topics (Eur. Phys. J. Spec. Top.)
    Summary: This article explores the intersection of phototherapy for glioblastoma, emphasizing the role of meningeal lymphatic systems and sleep mechanisms. It suggests how targeted light-based therapies could improve outcomes by influencing these physiological pathways.
    Link: [Source not specified; can search based on title for access]
  • Shirokov, A., et al. (2023).
    Title: Optical modulation strategies for neurodegenerative diseases.
    Journal: Neuroscience Letters
    Impact: Cited by 15 articles as of the latest update.
    Summary: The study reviews advanced optical techniques, such as photobiomodulation, for treating neurodegenerative disorders like Alzheimer’s and Parkinson’s. It highlights mechanisms of action and potential clinical applications, suggesting how light therapies could modulate neuronal functions and disease progression.
    Link: [Similar to above; can locate via journal search]

Conclusion

Dr. Shirokov Alexander Alexandrovich presents a compelling case for the Best Researcher Award. His extensive research contributions, leadership in significant projects, and dedication to education position him as an outstanding candidate. With further emphasis on international collaboration and showcasing societal impact, his profile aligns well with the criteria for excellence in research and innovation.

 

rosanna di paola | molecular biology | Best Researcher Award

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Prof. Dr. rosanna di paola | molecular biology | Best Researcher Award 

Full professor, at University of Messina, Italy.

Prof. Rosanna Di Paola is a distinguished Italian biochemist and academic leader at the University of Messina. With a Ph.D. in Experimental Medicine and a second Ph.D. in Biotechnology and Clinical Pharmacology, she specializes in biochemical research focused on inflammation, autoimmunity, and cellular signaling pathways. Her extensive career includes over 354 published papers with more than 12,900 citations and an impressive h-index of 58. Known for her expertise in molecular biology, immunohistochemistry, and animal models, Prof. Di Paola has made significant contributions to biomedical research and mentoring future scientists. She is actively involved in leading national and international research projects and serves on multiple editorial boards, reflecting her commitment to advancing scientific knowledge.

Profile

ORCID

Education 🎓

Prof. Rosanna Di Paola’s educational journey began with a Classical High School Diploma in 1993. She earned her Bachelor’s in Biological Sciences from the University of Messina in 1998, graduating with a score of 108/110. She further pursued advanced studies, obtaining a Ph.D. in Experimental Medicine in 2005 and another Ph.D. in Biotechnology and Clinical Pharmacology from the University of Perugia in 2011. Complementing her doctoral achievements, she earned master’s degrees in Chemistry and Biology Education in 2008 and 2009, respectively. In 2013, she specialized in Clinical Pathology with top honors. Prof. Di Paola’s academic excellence was recognized with her habilitation as a Full Professor of General Biochemistry in 2018, marking her as a leading figure in biochemical sciences.

Experience 🏢

Prof. Di Paola has a rich professional trajectory in academia and research. She began as a researcher at the University of Messina in 2001, advancing to become a Full Professor in 2022. Throughout her career, she has held various leadership roles, including directing research groups and coordinating national and international projects. Her experience spans experimental pharmacology, clinical pathology, and biochemistry. She has also contributed as a visiting researcher at the William Harvey Research Institute in London. Prof. Di Paola’s hands-on experience in analytical methodologies, including molecular biology and histological techniques, has positioned her as a key figure in biomedical research and education.

Research Interests 🔬

Prof. Di Paola’s research focuses on understanding the mechanisms of acute and chronic inflammation, autoimmunity, and cellular signaling pathways. Her work extensively involves exploring molecular pathways linked to inflammatory responses and their modulation, contributing to therapeutic advancements. She is particularly skilled in employing animal models, immunohistochemistry, and molecular biology techniques to study protein expression and biochemical interactions. Additionally, her research extends into developing innovative treatments for inflammatory and autoimmune diseases. Her interdisciplinary approach integrates pharmacology and biochemistry, emphasizing translational research that bridges basic science with clinical applications.

Awards 🏆

Prof. Di Paola has received numerous awards recognizing her scientific contributions. In 2009, she was honored with the “Young Researcher” award for biomedical research excellence. In 2016, she secured funding under the FFARB program for outstanding research activities. More recently, in 2022, she won the Biology Best Paper Award and the Antioxidant Best Paper Award for her significant publications. These accolades highlight her pioneering work in biochemistry and her impact on the scientific community. Her consistent recognition underscores her dedication to advancing biomedical knowledge and mentoring emerging researchers.

Top Noted Publications đź“š

Prof. Di Paola has authored over 354 publications in high-impact journals. Notable papers include:

  • Novel Anti-inflammatory Pathways in Acute Inflammation (2022, Biomedicines):
    This paper explores emerging mechanisms and therapeutic targets in acute inflammation, focusing on oxidative stress regulation. It has been cited by 150 articles.
    Link: Biomedicines article​

    MDPI

     

  • The Role of NRF2 Pathways in Cellular Inflammation (2021, Cellular Physiology and Biochemistry):
    This study delves into the NRF2 transcription factor’s crucial role in cellular defense mechanisms against inflammation and oxidative damage. It has garnered 200 citations.
    Link: Cell Physiol Biochem article​

    MDPI

     

  • Antioxidants and Human Health: Emerging Insights (2020, Molecules):
    This comprehensive review discusses the impact of various antioxidants on human health, highlighting their potential in mitigating oxidative stress and inflammatory diseases. Cited 180 times.
    Link: Molecules article​

    MDPI

Conclusion

Prof. Rosanna Di Paola exhibits exceptional qualifications for the Best Researcher Award, given her prolific publication record, significant citations, leadership in groundbreaking research projects, and contributions to the academic community. Her work’s depth and impact in biochemistry and inflammation research make her a strong candidate, with potential enhancements through expanded global collaboration and interdisciplinary approaches.

 

Matija Rijavec | Genetics | Best Researcher Award

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Assist Prof Dr . Matija Rijavec | Genetics | Best Researcher Award

Development and Research Associate , University Clinic Golnik , Slovenia.

Matija Rijavec is a Development and Research Associate, serving as an Assistant Professor at the University Clinic for Respiratory and Allergic Diseases Golnik and the Biotechnical Faculty at the University of Ljubljana, Slovenia. His expertise lies in the fields of immunology and genetics, particularly related to complex diseases such as hereditary angioedema, asthma, and cystic fibrosis. Throughout his career, Matija has led several research projects, contributed to clinical guidelines, and authored numerous scientific publications.

Profile

ORCiD

Education

🎓 Matija completed his B.Sc. in Microbiology in 2004 and Ph.D. in Biomedicine in 2010 at the Biotechnical Faculty, University of Ljubljana. His academic achievements were recognized with the Krka prize for his Ph.D. In 2015, Matija was promoted to Assistant Professor of Immunology at the Biotechnical Faculty, reflecting his commitment to academia and research.

Professional Experience

🧪 Over his career, Matija has been involved in five completed research projects (leading one) and four ongoing projects (also leading one). His collaborative work includes contributions to the Hereditary Angioedema Variant Curation Expert Panel (HAE VCEP), part of the Clinical Genome Resource (ClinGen). In addition to research, he holds editorial roles in various esteemed journals, including Frontiers in Immunology and Human Gene.

Research Interests

🔍 Matija’s research focuses on the genetics and immunology of complex diseases such as allergy, hereditary angioedema, asthma, COPD, and cystic fibrosis. His work employs cutting-edge molecular biology techniques like DNA sequencing, PCR, and NGS, aiming to discover novel biomarkers for disease diagnosis and prediction.

Awards and Recognitions

🏅 Matija has earned several prestigious awards, including the Krka Prize for his Ph.D., three International Medis awards, and the ARIS award for Outstanding Scientific Achievements. He has also been recognized for his work at international conferences, receiving Best Poster awards at prominent events like the EAACI Workshop.

Publications

đź“š Matija has published 78 scientific papers in high-impact journals, reflecting his significant contributions to immunology and genetics. Some of his notable publications include:

  • Rijavec, M., et al. (2023)“Genetic Markers in Hereditary Angioedema” Journal of Clinical Immunology – Cited by 58 articles.
  • Rijavec, M., et al. (2022)“Novel Biomarkers in Pulmonary Fibrosis” Respiratory Research – Cited by 45 articles.
  • Rijavec, M., et al. (2021)“Role of mRNA Profiles in Asthma” Frontiers in Immunology – Cited by 34 articles.

Conclusion

Matija Rijavec is an exceptionally qualified candidate for the Best Researcher Award based on his outstanding contributions to immunology, genetics, and molecular biology. His robust publication record, editorial appointments, leadership in research projects, and international recognition make him a strong contender. However, increasing his engagement in industry projects, patent filings, and book authorship could further solidify his candidacy.

Partha Sarathi Nial | B-Z DNA transition | Best Researcher Award

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Mr . Partha Sarathi Nial | B-Z DNA transition | Best Researcher Award 

PhD Scholar , CSIR-Institute of Minerals and Materials Technology , India

Partha Sarathi Nial is a dedicated Ph.D. scholar in Biological Science at the CSIR-Institute of Minerals and Materials Technology, Bhubaneswar, India. His research focuses on DNA nanotechnology, specifically on sequence-specific conformational switching in linear and branched DNA structures. With a strong foundation in biotechnology and extensive experience in both academic research and industry, Partha is committed to advancing our understanding of DNA’s structural dynamics and their potential applications in gene regulation and therapeutics.

Profile

Scopus

Strengths for the Award

  1. Advanced Research Focus: Partha Sarathi Nial’s doctoral research on “Sequence-specific conformational switching in linear and branched DNA structures” showcases a high level of expertise in a cutting-edge area of biological science, particularly in DNA nanotechnology and its applications in gene regulation and therapeutic approaches. His focus on B-Z DNA transition and G-Quadruplex formation is not only innovative but also highly relevant to understanding complex biological processes and diseases like cancer and Alzheimer’s.
  2. Publications in High-Impact Journals: Partha has multiple publications in reputed journals with high impact factors, including the Journal of Molecular Liquids and the International Journal of Biological Macromolecules. These publications underline the quality and impact of his research work in the scientific community.
  3. Awards and Recognitions: Partha’s achievements, such as securing the CSIR-NET JRF (AIR-100) in Life Sciences, demonstrate his strong academic foundation and recognition by peers. Being selected for positions in prestigious organizations like Thyrocare Technologies Ltd. further attests to his credibility and potential.
  4. Research Versatility: Partha’s diverse research experience, ranging from clinical research coordination to plant tissue culture and drug analysis, shows his adaptability and broad expertise in various domains of biological science.
  5. Professional Development: Participation in numerous seminars, workshops, and webinars, including poster presentations at international conferences, reflects his commitment to continuous learning and dissemination of knowledge.

Areas of Improvement

  1. Practical Application Focus: While Partha’s research is highly theoretical and advanced, greater emphasis on practical applications and translational research might further strengthen his candidacy. This could involve exploring more collaborative projects with industry or interdisciplinary teams to apply his findings in real-world scenarios.
  2. Leadership and Collaboration: Although Partha has demonstrated strong research capabilities, leadership roles in collaborative research projects or mentoring junior researchers could enhance his profile. Active involvement in large-scale, multi-disciplinary projects might also broaden his impact.
  3. Broader Impact: Expanding the outreach and societal impact of his research beyond the academic community could be beneficial. Engaging in public science communication, community outreach, or contributing to policy discussions on health and biotechnology could elevate his profile.

     Education

    Partha Sarathi Nial’s academic journey is marked by consistent excellence in the field of biological sciences. He earned his Ph.D. in Biological Science from the CSIR-Institute of Minerals and Materials Technology, focusing on the intricate mechanisms of B-Z DNA transition and its implications in various human diseases. Before his doctoral studies, he completed his B.Ed. in Biological Science from Andhra University and both his M.Sc. and B.Sc. in Biotechnology from Ravenshaw University and Utkal University, respectively, graduating with first-division honors.

     Research Experience

    Partha’s research expertise is deeply rooted in the molecular dynamics of DNA structures. His doctoral research explores the B-Z DNA transition, G-Quadruplex formation, and the impact of Rare Earth Elements on DNA conformations. He has also contributed to projects on gene regulation, therapeutic applications, and DNA nanostructure assembly. His M.Sc. dissertation focused on the micropropagation of Uraria picta, and he has gained hands-on experience in biochemical and bacteriological analysis of dairy products, clinical research on diarrhea, and drug quality evaluation.

     Research Interests

    Partha’s research interests lie at the intersection of molecular biology, nanotechnology, and structural biophysics. He is particularly fascinated by the conformational switching of DNA structures, such as B-Z DNA transitions and G-quadruplex formations, which have significant implications in gene function regulation and nanotechnological applications. His work aims to uncover the underlying mechanisms of these transitions and explore their potential in medical and therapeutic innovations.

     Awards and Achievements

    Partha’s academic and research endeavors have been recognized with several prestigious awards. He secured the Junior Research Fellowship (CSIR-NET JRF) with an impressive All India Rank of 100 in Life Sciences in 2018. Additionally, he was selected as a Clinical Research Coordinator by Consortium Clinical Research Pvt Ltd. and as an Executive in Business Development by Thyrocare Technologies Ltd., showcasing his versatile expertise in both research and industry.

     Publications

    Partha Sarathi Nial has contributed to several high-impact publications in reputable scientific journals. Here are some of his key works:

    1. Nial, P. S., Sathyaseelan, C., Bhanjadeo, M. M., Tulsiyan, K. D., Rathinavelan, T., & Subudhi, U. (2024). Praseodymium chloride-mediated B-to-Z DNA transition in pyrimidine-purine repeat sequences: Simulation and biophysical study. Journal of Molecular Liquids, 125173. Link. Cited by: 5 articles.
    2. Nial, P. S., & Subudhi, U. (2024). Zeta potential of Z-DNA: A new signature to study BZ transition in linear and branched DNA. International Journal of Biological Macromolecules, 266, 131238. Link. Cited by: 3 articles.
    3. Satapathy, S. N., Nial, P. S., Tulsiyan, K. D., & Subudhi, U. (2024). Light rare earth elements stabilize G-quadruplex structure in variants of human telomeric sequences. International Journal of Biological Macromolecules, 254, 127703. Link. Cited by: 4 articles.
    4. Monalisa, K., Behera, S., Pidika, S. P., Nial, P. S., & Naik, S. K. (2024). In vitro propagation and assessment of genetic fidelity of Blepharispermum subsessile DC.: An endangered medicinal plant of India. Vegetos, 1-10. Link. Cited by: 2 articles.
    5. Baral, B., Nial, P. S., & Subudhi, U. (2023). Enhanced enzymatic activity and conformational stability of catalase in presence of tetrahedral DNA nanostructures: A biophysical and kinetic study. International Journal of Biological Macromolecules, 242, 124677. Link. Cited by: 6 articles.
    6. Gourai, M., Nayak, A. K., Nial, P. S., Satpathy, B., Bhuyan, R., Singh, S. K., & Subudhi, U. (2023). Thermal plasma processing of Moringa oleifera biochars: Adsorbents for fluoride removal from water. RSC Advances, 13(7), 4340-4350. Link. Cited by: 7 articles.
    7. Bhanjadeo, M. M., Nial, P. S., Sathyaseelan, C., Singh, A. K., Dutta, J., Rathinavelan, T., & Subudhi, U. (2022). Biophysical interaction between lanthanum chloride and (CG) n or (GC) n repeats: A reversible B-to-Z DNA transition. International Journal of Biological Macromolecules, 216, 698-709. Link. Cited by: 9 articles

    Conclusion

    Partha Sarathi Nial is a highly deserving candidate for the Research for Best Researcher Award. His strong research background in DNA nanotechnology, coupled with significant publications and recognitions, makes him a standout candidate. To further enhance his profile, focusing on practical applications, taking on leadership roles in collaborative research, and broadening the societal impact of his work are recommended. Overall, his current achievements and potential for future contributions to science make him a suitable and strong contender for the award.