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Ki-Young Lee, Medicine, Innovative Researcher Award

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Prof. Dr Ki-Young Lee:  Heed Professor, Department of Immunology Sungkyunkwan University, School of Medicine at Sungkyunkwan University School of Medicine, Korea (South)

Dr. Ki-Young Lee is a distinguished immunologist and Heed Professor at the Department of Immunology, Sungkyunkwan University School of Medicine, Korea. His research career spans over 25 years, focusing on the intricate molecular mechanisms governing immune signaling pathways, inflammation, and cancer biology. He is best known for elucidating the role of TLR and NF-κB signaling in immune responses and tumor progression, as well as for his pioneering work on autophagy regulation through ubiquitin-mediated signaling. His academic leadership is reflected not only in his scientific productivity—with over 150 publications and numerous high-impact articles—but also in his administrative role as Chief Officer of the Laboratory Animal Research Center at SKKU, where he promotes translational and preclinical research.

Online Profiles

Scopus Profile

Dr. Ki-Young Lee’s academic output and impact are documented across several reputable research platforms. His Scopus Author ID is 57482881000, where he has published 79 documents, accumulated 3,557 citations across 3,257 documents, and holds an h-index of 32, reflecting the sustained influence of his research. Dr. Lee maintains a presence across several leading academic platforms. His work can be explored on ResearchGate, where he shares updates and full-text access to many of his publications. His Google Scholar profile lists over 4,000 citations, reflecting strong international recognition of his contributions. He is also searchable on PubMed, where his extensive biomedical publications are indexed. Additional details about his university role can be found through the official SKKU Faculty Directory by searching for “Ki-Young Lee.”

Education

Dr. Lee earned his Ph.D. in Biotechnology from Yonsei University, College of Engineering (1999–2002), where he trained under Prof. Baik L. Seong in molecular virology and immunology. He previously completed his M.S. in Pharmacy at Chungbuk National University (1993–1995) under the mentorship of Prof. Chong-Kil Lee, and obtained his B.A. in the same field from the same university (1987–1993). He then pursued postdoctoral training in immunobiology at Yale University School of Medicine (2003–2005), where he worked under world-renowned immunologist Prof. Sankar Ghosh, focusing on T cell receptor signaling and the role of PDK1 in NF-κB activation.

Research Focus

Dr. Lee’s research centers on dissecting the molecular pathways that connect innate immune signaling, oxidative stress, and cancer development. A significant part of his work addresses the role of Toll-like receptors (TLRs), particularly TLR4 and TLR2, and how they activate downstream mediators such as TRAF6, ECSIT, and TAK1. His group has pioneered studies demonstrating the regulation of these pathways by deubiquitinases (e.g., USP14, USP15, USP21), kinases (e.g., PDK1, AMPK), and metabolic proteins (e.g., CRBN, Prdx6). More recently, his research has expanded into understanding how viral components like the SARS-CoV-2 spike protein and cancer cell interactions with the immune system contribute to tumor progression, metastasis, and therapeutic resistance.

Experience

Dr. Lee’s professional journey includes foundational research and academic leadership in both industry and academia. He began his scientific career as a Research Scientist across institutions such as Ewha Womans University and the Korea Institute of Science & Technology (1993–2002). He then served as Principal Research Scientist and Team Leader at Mogam Biotechnology Institute, where he led immunotherapy-related projects. Following his postdoctoral training at Yale, he became a lecturer at Ulsan University College of Medicine (2005–2007). In 2007, he joined Sungkyunkwan University (SKKU), where he rapidly advanced from Assistant Professor to Full Professor and was later honored with the Heed Professorship. Since 2019, he has served as Chief Officer of SKKU’s Laboratory Animal Research Center, overseeing translational research infrastructure.

Research Timeline

  • 1993–2002: Research Scientist roles in immunology, pharmacy, and biotech R&D institutions in Korea

  • 1999–2002: Ph.D. in Biotechnology at Yonsei University

  • 2003–2005: Postdoctoral Fellow at Yale University School of Medicine under Prof. Sankar Ghosh

  • 2005–2007: Lecturer, College of Medicine, Ulsan University

  • 2007–2011: Assistant Professor, Department of Molecular & Cell Biology, SKKU

  • 2011–2013: Associate Professor, SKKU

  • 2013–2017: Early-Tenured Associate Professor, SKKU

  • 2017–Present: Full Professor and Heed Professor, Department of Immunology, SKKU

  • 2019–Present: Chief Officer, Laboratory Animal Research Center, SKKU

Awards & Honors

Throughout his career, Dr. Lee has earned significant academic recognition and institutional honors. He was granted early tenure at SKKU for his outstanding scholarly contributions and was later awarded the Heed Professorship—one of the most prestigious faculty titles at the university. His research has attracted numerous national and international grants, including funding from Korean government agencies and global collaborative programs. In recognition of his role in translational immunology and cancer research, Dr. Lee has been invited to review for high-impact journals and serve on editorial boards and research committees across Asia and beyond.

Top-Noted Publication

Among Dr. Lee’s most influential publications is his 2005 Science paper on the role of PDK1 in TCR-mediated NF-κB signaling, which marked a paradigm shift in T cell immunobiology. Equally impactful is his 2024 Cancer Communications paper revealing how the SARS-CoV-2 spike protein drives lung cancer metastasis through TLR2 activation, highlighting real-world translational implications of his immune-oncology research. His recent Biomarker Research (2025) article identifying USP21-EGFR-Lyn signaling as a therapeutic target in non-small cell lung cancer (NSCLC) exemplifies his continued leadership at the intersection of immunity and cancer therapeutics.

  1. USP21-EGFR signaling axis is functionally implicated in metastatic colorectal cancer
    Cell Death Discovery, 2024

    • Citations: 3

  2. PTK2 is a potential biomarker and therapeutic target for EGFR- or TLRs-induced lung cancer progression via the regulation of the cross-talk between EGFR- and TLRs-mediated signals
    Biomarker Research, 2024

    • Citations: 4

  3. The SARS-CoV-2 spike protein induces lung cancer migration and invasion in a TLR2-dependent manner
    Cancer Communications, 2024

    • Citations: 9

  4. FFAR2 antagonizes TLR2- and TLR3-induced lung cancer progression via the inhibition of AMPK-TAK1 signaling axis for the activation of NF-κB
    Cell and Bioscience, 2023

    • Citations: 10

  5. Prognostic implication of downregulated exosomal miRNAs in patients with sepsis: a cross-sectional study with bioinformatics analysis
    Journal of Intensive Care, 2023

    • Citations: 8

Prof. Dr. Ki-Young Lee’s strengths for the Innovative Researcher Award

1. Groundbreaking Contributions in Immunology and Cancer Biology

Prof. Dr. Ki-Young Lee has made pioneering discoveries in the fields of immunology and cancer biology, with a particular focus on understanding how the immune system’s molecular machinery drives disease processes. His work on Toll-like receptor (TLR) signaling, the NF-κB pathway, and autophagy regulation through ubiquitin-mediated mechanisms has significantly advanced scientific knowledge in both fundamental and clinical immunology. His 2005 Science publication on the role of PDK1 in TCR-mediated NF-κB signaling marked a paradigm shift in T cell biology, and continues to influence immunological research globally. Through decades of sustained effort, Dr. Lee has established himself as a global authority on how immune signals contribute to inflammation, tumor progression, and host-pathogen interactions.

2. Innovation in Translational and Viral Immunology Research

Dr. Lee is widely respected for his ability to translate complex molecular findings into clinically relevant insights. His recent research connects viral immune responses with cancer metastasis and progression, exemplified by his 2024 Cancer Communications article demonstrating that the SARS-CoV-2 spike protein can induce lung cancer cell migration and invasion via TLR2 activation. This innovative line of research not only shows scientific creativity, but also responds directly to global health challenges by uncovering new immune-oncology interfaces. His work bridges basic science with real-world medical applications, offering potential therapeutic avenues for viral-associated and immune-driven cancers.

3. Sustained High-Impact Research Output and Academic Leadership

Over a distinguished career spanning more than 25 years, Dr. Lee has authored over 150 scientific publications, accumulated more than 4,000 citations (Google Scholar), and achieved an h-index of 32 (Scopus). These metrics reflect the depth and influence of his scientific contributions. Beyond publishing, Dr. Lee has demonstrated academic leadership through his appointment as a Heed Professor at Sungkyunkwan University and as the Chief Officer of its Laboratory Animal Research Center. In these roles, he has fostered collaborative research environments and overseen major translational research projects, further solidifying his standing as a leader in biomedical research and institutional innovation.

4. Discovery of Novel Therapeutic Targets and Mechanistic Insights

Dr. Lee’s research has been instrumental in identifying and characterizing new molecular targets for therapy, particularly in the context of immune regulation and cancer treatment. His group has elucidated the roles of various signaling mediators such as USP21, EGFR, Lyn, PTK2, and FFAR2, showing how their dysregulation contributes to lung and colorectal cancer progression. His recent publications in journals like Biomarker Research and Cell Death Discovery demonstrate that his work continues to uncover critical pathways that may serve as therapeutic entry points. These findings represent valuable contributions to the development of precision medicine strategies and targeted immunotherapies.

5. Global Research Visibility, Collaboration, and Funding Success

Dr. Lee’s reputation extends well beyond national boundaries, as evidenced by his research collaborations, postdoctoral training at Yale University, and frequent invitations to participate in international research networks and editorial boards. He has secured numerous competitive grants from the Korean government as well as global funding agencies, supporting his cutting-edge projects in immunology, oncology, and biomedical innovation. His active participation in the peer-review process for high-impact journals and advisory committees further underscores his standing as a respected and trusted figure in the global scientific community.

Eligibility for the Innovative Researcher Award

Prof. Dr. Ki-Young Lee exemplifies the qualities sought in recipients of the Innovative Researcher Award. His career is defined by original scientific discovery, translational relevance, and global impact. With a strong record of academic leadership, a profound influence on immunology and cancer biology, and continued contributions to pressing health challenges such as COVID-19 and cancer, he is an outstanding candidate for this recognition. His achievements reflect not only innovation in research, but also a long-term commitment to advancing science for the benefit of human health, making him exceptionally well-qualified for this prestigious honor.

Tianyao Wang, Medicine, Best Researcher Award

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Doctorate Tianyao Wang: Assistant Researcher at Peking University First Hospital, China

Dr. Tianyao (Tim) Wang is an Assistant Researcher at the Department of Nuclear Medicine, Peking University First Hospital. He received his Ph.D. in Nuclear Engineering from Texas A&M University, where he also completed a Certificate in Business from Mays Business School. His research spans radiopharmaceutical development, PET molecular imaging, accelerator-based isotope production, and radiation-material interactions. Dr. Wang has authored 33 high-impact publications, holds multiple invention patents, and serves as PI or co-PI on over ten national and international research grants. As of 2025, he has accumulated 613 citations with an h-index of 12 and an i10-index of 16.

Online Profiles

Google Scholar: Tianyao Wang – Google Scholar

Education

Dr. Wang completed his Ph.D. in Nuclear Engineering at Texas A&M University (2015–2020) with a 3.8 GPA, where his dissertation focused on the radiation responses of bulk metallic glasses. He also earned a Certificate in Business from Mays Business School during his Ph.D. studies. He received his B.S. in Nuclear Science and Technology from Harbin Engineering University (2011–2015), graduating with a 3.7 GPA and being awarded the Best Undergraduate Award (1st out of 3,300 students) along with three consecutive National Scholarships.

Research Focus

Dr. Wang’s research integrates nuclear engineering, clinical molecular imaging, and material science. His current interests include the development of novel PET radiotracers targeting cancer-related biomarkers (e.g., CD38, BCMA, c-Met), dual-target immunoPET probes, and clinical translation of nanobody-based diagnostic agents. He also explores ion beam modification, helium interaction with structural materials, and the operation of cyclotron and accelerator systems for isotope production.

Experience

Dr. Wang is currently leading several translational radiopharmaceutical imaging projects at Peking University First Hospital. Prior to this, he was Project Leader at Zhejiang University/Boomy United Lab, where he developed GMP radiopharmacy systems and advanced business planning for the nuclear sector. He also worked as a management consultant at ByteDance, focusing on strategic business structuring for metaverse and public cloud divisions. His foundational research experience was shaped by NSF-funded graduate and internship work at Texas A&M University and Argonne National Laboratory.

Research Timeline

  • 2023–Present: Assistant Researcher, Peking University First Hospital (Nuclear Medicine)

  • 2022–2023: Project Leader, Zhejiang University/Boomy United Lab

  • 2021–2022: Management Consultant, ByteDance/TikTok Ltd. (Beijing)

  • 2015–2020: Graduate Research Assistant, Texas A&M University / NSF Projects

  • 2016 (Fall): Ph.D. Research Intern, Argonne National Laboratory (USA)

Awards & Honors

Dr. Wang has received prestigious recognitions including the Best Undergraduate Award (Harbin Engineering University), three-time National Scholarship (Top 1% in China), and funding awards from the NSFC, China Postdoctoral Foundation, and multiple Peking University research initiatives. His PI-led grants total over RMB 700,000, while he has contributed as a core team member to additional projects exceeding RMB 3 million and USD 1 million in total funding.

Top-Noted Publication

A notable highlight of Dr. Wang’s work is his 2025 publication in European Journal of Nuclear Medicine and Molecular Imaging titled: “ImmunoPET imaging of c-Met using a nanobody-based tracer [68Ga]Ga-NOTA-PFCM01 in pancreatic ductal adenocarcinoma models and non-human primates”. This study exemplifies his contributions to precision oncology, showcasing successful translational imaging from animal models to potential human clinical applications.

  • CD38-specific immunoPET imaging for multiple myeloma diagnosis and therapeutic monitoring: preclinical and first-in-human studies
    W. Huang, T. Wang, Y. Qiu, et al.
    European Journal of Nuclear Medicine and Molecular Imaging, 2025, 10 citations
    [DOI: 10.1007/s00259-024-07036-7]
    Clinical translation of a novel CD38-targeted PET tracer for multiple myeloma.

  • The effect of internal free surfaces on void swelling of irradiated pure iron containing subsurface trenches
    T. Wang, H. Kim, F.A. Garner, K.L. Peddicord, L. Shao
    Crystals, 2019, 8 citations
    [DOI: 10.3390/cryst9050252]
    Study of radiation damage and defect evolution in iron structures.

  • Influence of topological constraints on ion damage resistance of amorphous hydrogenated silicon carbide
    Q. Su, T. Wang, J. Gigax, et al.
    Acta Materialia, 2019, 6 citations
    [DOI: 10.1016/j.actamat.2018.12.016]
    Insights into radiation tolerance in amorphous semiconductors.

  • Development of a Novel Peptide-Based PET Tracer [68Ga]Ga-DOTA-BP1 for BCMA Detection in Multiple Myeloma
    L. Song, S. Jiang, Q. Yang, T. Wang, et al.
    Journal of Medicinal Chemistry, 2024, 5 citations
    [DOI: 10.1021/acs.jmedchem.4c00759]
    First-in-class BCMA-targeted peptide PET tracer for MM detection.

  • Enhanced Theranostic Efficacy of 89Zr and 177Lu-Labeled Aflibercept in Renal Cancer: A Viable Option for Clinical Practice
    Z. Chen, Q. Yang, L. Song, T. Wang, et al.
    Molecular Pharmaceutics, 2024, 4 citations
    [DOI: 10.1021/acs.molpharmaceut.4c00084]
    Dual-labeled aflibercept for imaging and therapy of renal cancer.

Sameer Peer, Medicine, Best Researcher Award

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Doctorate Sameer Peer: Assistant Professor at All India Institute of Medical Sciences, Bathinda, Punjab, India

Dr. Sameer Peer is an accomplished Assistant Professor in the Department of Radiology at AIIMS, Bathinda. His expertise lies in neuroradiology, a field focused on advanced imaging techniques to diagnose neurological diseases. With a profound interest in neuroimaging, he has dedicated his career to improving diagnostic methods and understanding complex neurological disorders. His work is highly regarded in the scientific community, and he has contributed significantly to the academic and clinical domains through numerous publications. Dr. Peer’s research interests are primarily in neuroimaging, neurodegenerative diseases, and cerebrovascular disorders.

Online Profiles

Google Scholar Profile

Dr. Sameer Peer has made a significant impact in the field of neuroradiology, with a total of 102 citations for his research. His work is widely regarded within the scientific community, reflected by his h-index of 5 and i10-index of 2. These metrics demonstrate his consistent contribution to the field and the relevance of his publications in advancing the understanding of neuroimaging and neurological diseases. The high number of citations and these indices highlight the growing influence of his research, particularly in the areas of neurodegenerative diseases, cerebrovascular disorders, and the role of artificial intelligence in radiology.

Education

Dr. Sameer Peer completed his Doctorate in Medicine (MD) in Neuroradiology from the prestigious National Institute of Mental Health and Neurosciences (NIMHANS), Bangalore, India, in June 2021. This specialized training solidified his foundation in both clinical and academic aspects of radiology, particularly neuroimaging. Throughout his academic journey, Dr. Peer received top honors for his exceptional performance and research contributions. Additionally, he is a member of several professional organizations, including the Indian Society of Neuroradiology and the European Society of Neuroradiology, which keep him at the forefront of the latest developments in the field.

Research Focus

Dr. Peer’s research primarily revolves around cutting-edge neuroimaging techniques and their applications in diagnosing and understanding neurological diseases. His specific interests include studying rare neurodegenerative diseases, cerebrovascular disorders, and developmental brain anomalies. He is particularly focused on enhancing the accuracy of early diagnosis through advanced imaging modalities, such as MRI, CT, and functional neuroimaging. Dr. Peer is also exploring how artificial intelligence and machine learning can be integrated into neuroimaging to predict outcomes and personalize treatment plans for patients suffering from complex neurological conditions.

Experience

As an Assistant Professor at AIIMS Bathinda, Dr. Peer brings both academic excellence and clinical expertise to his role. He is deeply involved in the training of medical students and postgraduate residents, imparting his knowledge of radiology and neuroimaging. In his clinical practice, Dr. Peer regularly diagnoses and treats patients with a variety of neurological conditions, using the latest imaging technology. His work has allowed him to collaborate with various international research bodies and contribute to clinical trials, thus influencing the future direction of radiology research. His role also extends to managing and mentoring graduate students, further enriching the academic environment at AIIMS Bathinda.

Research Timeline

  • 2021: Completed MD in Neuroradiology from NIMHANS, Bangalore.

  • 2021-Present: Appointed Assistant Professor at AIIMS Bathinda, where Dr. Peer started leading various research projects focused on neuroimaging and clinical radiology.

  • 2022-2024: Published multiple high-impact papers on topics such as neurodegenerative diseases, cerebrovascular pathology, and the application of MRI in complex neurological conditions.

  • 2023-2025: Began investigating the potential of artificial intelligence in neuroimaging, aiming to create more predictive models for early diagnosis and personalized treatments.

Awards & Honors

Dr. Peer’s work has been recognized with numerous accolades. Among his notable honors, he has received awards for his outstanding contributions to medical research in neuroradiology. His publications in peer-reviewed journals have been acknowledged internationally. Furthermore, Dr. Peer has been invited to speak at various national and international conferences and serves as a reviewer for several renowned radiology and medical journals. His dedication to the field was also recognized by the Indian Society of Neuroradiology, where he was awarded the ‘Best Young Researcher’ in 2023 for his work on cerebrovascular disorders.

Top-Noted Publications

Assessment of resting-state functional magnetic resonance imaging connectivity among patients with major depressive disorder: A comparative study
Authors: P Singh, J Singh, S Peer, M Jindal, S Khokhar, A Ludhiadch, A Munshi
Journal: Annals of Neurosciences
Year: 2025, Volume 32(1), Pages 13-20

Clinical Spectrum of Ophthalmic Manifestations in Myelin Oligodendrocyte Glycoprotein-Associated Disease (MOGAD): A Comprehensive Case Report
Authors: SK Dhoot, V Lakhanpal, S Peer, S Prakash
Journal: Ocular Immunology and Inflammation
Year: 2024, Volume 32(9), Pages 2254-2260

Teaching NeuroImage: Porencephaly and Hemorrhage in Infantile COL4A2-Related Cerebral Microangiopathy
Authors: R Singh, S Peer, P Singh, A Wander
Journal: Neurology
Year: 2024, Volume 103(5), e209758

Pediatric headache: A comprehensive review
Authors: A Wander, AK Meena, PK Choudhary, S Peer, R Singh
Journal: Annals of Child Neurology
Year: 2024, Volume 32(4), Pages 207-218

Pseudomyxoma peritonei leading to “jelly belly” abdomen: A case report and review of the literature
Authors: P Garg, N Garg, S Peer, D Chholak, M Kaur
Journal: Journal of Medical Case Reports
Year: 2024, Volume 18(1), Page 296

Vascular steal phenomenon in lower limb due to reactive hyperemia in contralateral limb: A case series and an explanation of a rare phenomenon using continuity equation
Author: S Peer
Journal: Annals of Vascular Diseases
Year: 2024, Volume 17(2), Pages 205-210

Ashish Kumar Prasad, Mathematics, Best Researcher Award

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Assoc. Prof Ashish Kumar Prasad: Associate Professor at Amity University, Jharkhand, India

Dr. Ashish Kumar Prasad is a distinguished mathematician and researcher with over 10 years of experience in teaching and scholarly research. He specializes in optimization theory, fractional programming, and variational problems, contributing significantly to both theoretical advancements and practical applications. Currently an Associate Professor at Amity University, Ranchi, he previously served as Dean of Science at Netaji Subhas University. Dr. Prasad holds a Ph.D. from IIT ISM Dhanbad and is known for his commitment to academic excellence and mentoring young researchers.

Online Profiles

ORCID Profile

Dr. Prasad actively maintains professional profiles on academic networking platforms such as Google Scholar and ResearchGate, where his extensive publication record is available for the global scientific community. Through these channels, he engages with fellow researchers, shares ongoing research findings, and participates in discussions related to nonlinear analysis and optimization. Additionally, he regularly attends and presents at national and international conferences, fostering collaborations and knowledge exchange.

Education

Dr. Prasad’s academic journey began with a B.Sc. degree from Ranchi University, followed by an M.Sc. from Vinoba Bhave University. He then advanced his specialization by earning an M.Phil. and a Ph.D. from the prestigious IIT ISM Dhanbad. His doctoral research laid the groundwork for his expertise in interval-valued optimization and fractional programming, equipping him with rigorous training in advanced mathematical tools and research methodologies.

Research Focus

His primary research interests encompass optimality conditions and duality theories for interval-valued and fractional vector optimization problems. Dr. Prasad explores the frontiers of nonsmooth and multiobjective optimization, addressing complex variational and fractional problems with practical relevance in engineering and operational research. His work often integrates advanced mathematical modeling with computational techniques, aiming to solve real-world optimization challenges.

Experience

Over a decade, Dr. Prasad has accumulated extensive experience in academia, teaching courses at undergraduate and postgraduate levels, supervising M.Sc. and Ph.D. students, and coordinating research projects. His academic appointments include significant tenures at institutions such as VIT Vellore, Presidency University, and NIT Jamshedpur. Beyond teaching, he has served in administrative roles including Dean of Science, where he contributed to curriculum development and institutional governance.

Research Timeline

Beginning with his doctoral studies in 2010, Dr. Prasad’s research output has steadily grown, with influential papers published in top-tier SCI, SCIE, and Scopus-indexed journals from 2013 onward. His early work focused on fractional programming and convexity concepts, progressively evolving to include interval-valued optimization and advanced duality theories. His research timeline reflects a consistent dedication to expanding the theoretical foundations and practical applications of mathematical optimization.

Awards & Honors

Dr. Prasad’s academic leadership is exemplified by mentoring distinguished students such as Anant Pratap Singh, a gold medalist and DST Inspire Fellow. His research has been recognized through publications in high-impact journals and invitations to deliver talks at international conferences. These accomplishments underscore his standing in the mathematics research community and his contributions to advancing optimization theory.

Top-Noted Publication

Among his numerous publications, the paper “Optimality conditions for an interval-valued vector problem,” published in Kybernetika (2025), is highly regarded. This work offers novel insights into interval-valued optimization and establishes foundational results that have influenced subsequent studies in the field. The paper’s publication in an SCI-indexed journal with an impact factor of 0.9 highlights its scholarly significance and Dr. Prasad’s expertise in this niche area of mathematical research.

  • Title: 𝓔-LU-optimal solution for nonsmooth semi-infinite interval-valued problems
    Journal: OPSEARCH
    Date: 2025-07-07
    DOI: 10.1007/s12597-025-00971-5
    Contributors: Julie Khatri, Ashish Kumar Prasad

  • Title: 𝓔-LU-pareto solutions for semi-infinite programs with multiple intervals
    Journal: OPSEARCH
    Date: 2025-02-04
    DOI: 10.1007/s12597-025-00917-x
    Contributors: Julie Khatri, Ashish Kumar Prasad

  • Title: Exact L₁ penalty function for nonsmooth multiobjective interval-valued problems
    Journal: Kybernetika
    Date: 2024
    DOI: 10.14736/kyb-2024-5-0652
    EID: 2-s2.0-85215557895
    Contributors: Julie Khatri, Ashish Kumar Prasad

  • Title: Optimality and duality for interval-valued vector problems
    Journal: Filomat
    Date: 2024
    DOI: 10.2298/FIL2426091K
    EID: 2-s2.0-85214260698
    Contributors: Julie Khatri, Ashish Kumar Prasad

  • Title: Duality for a fractional variational formulation using η-approximated method
    Journal: Kybernetika
    Date: 2023
    DOI: 10.14736/kyb-2023-5-0700
    EID: 2-s2.0-85178487225
    Contributors: Sony Khatri, Ashish Kumar Prasad

Vagish Dwibedi, Agriculture, Best Researcher Award

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Doctorate Vagish Dwibedi: Assistant Professor at Chandigarh University, India

Dr. Vagish Dwibedi is a dedicated Assistant Professor at Chandigarh University, Mohali, with over nine years of extensive research and teaching experience in biotechnology. His interdisciplinary work bridges agriculture, pharmaceuticals, and microbial biotechnology, focusing on innovative solutions for plant health, sustainable agriculture, and drug discovery. He has made significant contributions through research, patents, and publications that impact both academic and industrial sectors.

Online Profiles

ORCID Profile

  • Total Citations: 919 (Recent: 912)

  • h-index: 18

  • i10-index: 24

Dr. Dwibedi actively engages with the global scientific community via multiple professional platforms such as LinkedIn, Google Scholar, ResearchGate, and ORCID. These profiles showcase his diverse research portfolio, collaborations, publications, and patents, allowing him to stay connected and visible in the rapidly evolving fields of biotechnology and agricultural sciences.

Education

Dr. Dwibedi earned his Ph.D. in Biotechnology from Thapar University and NIPER Mohali in 2020, where he specialized in isolating and optimizing resveratrol production from endophytic fungi. Following this, he completed a postdoctoral fellowship (2023-2024) at the prestigious Volcani Centre in Israel, focusing on drought-tolerant rhizobacteria for improving wheat resilience. His foundational education includes an M.Sc. in Biotechnology from Amity University and a B.Sc. in Zoology, Botany, and Chemistry from Lucknow University, underscoring a strong multidisciplinary academic background.

Research Focus

His research centers on understanding and harnessing plant-microbe interactions to improve crop productivity and stress tolerance, particularly under water-limited conditions. Dr. Dwibedi explores microbial communication, bioactive compound discovery, and microbial fermentation to develop sustainable agricultural practices and novel therapeutics. His work also extends to drug discovery targeting neurodegenerative and metabolic disorders using advanced analytical methods like HPLC, GC-MS, and fermentation technology.

Experience

Dr. Dwibedi’s career spans roles from research assistantships to faculty positions, including research scientist and postdoctoral fellowships. He has served as Assistant Professor at Chandigarh University since 2020 and recently resumed this role after his postdoctoral tenure in Israel. His experience combines teaching, student mentorship, research project leadership, patent development, and innovation in biotechnology with a focus on translating laboratory research into practical applications.

Research Timeline

  • 2013–2014: Research Assistant, Delhi University South Campus, BCIL (DBT)

  • 2015–2018: Junior Research Fellow, Thapar Institute of Engineering & Technology

  • 2018–2019: Research Fellow, Thapar Institute of Engineering & Technology

  • 2019: Research Scientist, AGPHARM BIOINNOVATIONS LLP, Patiala

  • 2020–2022: Assistant Professor, Chandigarh University

  • 2023–2024: Postdoctoral Research Fellow, Volcani Centre, Israel

  • 2024–Present: Assistant Professor, Chandigarh University

Awards & Honors

Among his accolades, Dr. Dwibedi won the highly competitive DST-Lockheed Martin-Tata Trust India Innovation Growth Programme (IIGP) 2.0 competition for developing a bio-based packing material to preserve fruits and vegetables post-harvest. He also earned the Best Poster Award at the International Conference on Drug Discovery: Biotech and Pharma at TIET, Patiala. His innovative work is further validated by multiple published and filed Indian patents in the fields of biotechnology and bio-based materials.

Top-Noted Publication

One of Dr. Dwibedi’s notable recent publications is “Identification of Natural Compounds as Potential COVID-19 Main Protease (Mpro) Inhibitors: A comprehensive study and In-silico evidence” (2025, Current Pharmaceutical Design, IF=2.8). This study highlights his expertise in natural product drug discovery and computational biology, contributing to the global fight against viral diseases by identifying promising natural inhibitors against COVID-19 targets.

  • Exploring the Modern Approaches to Enhance Fungal Endophyte-Derived Bioactive Secondary Metabolites

    • 3 Biotech (June 2025)

    • DOI: 10.1007/s13205-025-04328-z

    • Contributors: Palakjot Kour Sodhi, Tanveer Kour, Gursharan Kaur, Vijay Gahlaut, Santosh Kumar Rath, Vagish Dwibedi, Mahavir Joshi

  • Isolation, Screening, and Identification of Staphylococcus epidermidis with Effective Probiotic Attributes

    • Current Microbiology (June 2025)

    • DOI: 10.1007/s00284-025-04206-0

    • Contributors: Sonia Sharma, Nazim Uddin, Gurleen Kaur Sodhi, Abdurahman Hajinur Hirad, Nancy George, Gursharan Kaur, Swapnil Kajale, Rajinder Kaur, Jagdish Chandra Bose, Vagish Dwibedi

  • Nanocarriers and Nano Drug Delivery Therapy in Neuro Diseases

    • Book Chapter, 2024

    • DOI: 10.1007/978-981-97-0308-1_10

    • Contributors: Palak Rana, Gursharan Kaur, Aleena James Chirayimmel, Anupama Rajput, Santosh Kumar Rath, Vagish Dwibedi

  • Nanomaterials for Diagnosis and Treatment of Common Neurological Disorders

    • Book Chapter, 2024

    • DOI: 10.1007/978-981-97-0308-1_8

    • Contributors: Gursharan Kaur, Aleena James Chirayimmel, Palak Rana, Sonia Sharma, Jagadeesh Chandra Bose, Santosh Kumar Rath, Vagish Dwibedi

  • Stilbenes: a Journey from Folklore to Pharmaceutical Innovation

    • Archives of Microbiology (May 2024)

    • DOI: 10.1007/s00203-024-03939-z

    • Contributors: Gursharan Kaur, Rajinder Kaur, Gurleen Kaur Sodhi, Nancy George, Santosh Kumar Rath, Harleen Kaur Walia, Vagish Dwibedi, Sanjai Saxena

  • Process Optimization of Antimicrobial Activity of Adhatoda vasica Against MDR Pathogens Using Response Surface Methodology

    • Proceedings of the National Academy of Sciences, India Section B: Biological Sciences (Feb 2024)

    • DOI: 10.1007/s40011-023-01504-0

    • Contributors: Mahavir Joshi, Vagish Dwibedi, Santosh Kumar Rath, Tulika Mishra, Sukhminderjit Kaur

SenthilPandian M, Engineering, Young Innovators Award

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Doctorate SenthilPandian M: Assistant Professor (Sr) at Vellore Institute of Technology Chennai, India

Dr. M. Senthil Pandian is a seasoned structural engineer and academician with over 16 years of professional experience, including 12 years in teaching and research and 4 years in structural design consultancy. Currently an Assistant Professor (Senior Grade II) at Vellore Institute of Technology (VIT), Chennai, he has made significant contributions to the fields of structural analysis, composite structures, and construction technology. His work is characterized by a strong interdisciplinary approach, integrating traditional civil engineering practices with modern computational methods, smart materials, and electronics in construction applications. Known for his commitment to both academic excellence and practical innovation, Dr. Senthil Pandian has mentored numerous postgraduate students and has actively contributed to the academic and infrastructural growth of VIT.

Online Profiles

Dr. Senthil Pandian maintains active academic profiles across key research databases and platforms. His ORCID 0000-0003-0261-8616 captures a unified record of his scholarly output. His Scopus Author ID 57205443018 tracks his contributions to peer-reviewed journals indexed in Scopus. On Google Scholar (Scholar Profile), his citations reflect the impact of his work across civil engineering, materials science, and interdisciplinary research fields. These platforms collectively showcase his expertise in structural engineering, smart infrastructure systems, and construction material innovations.

Education

Dr. Senthil Pandian holds a Ph.D. in Structural Engineering from Vellore Institute of Technology (VIT), Chennai, awarded in 2020 for his research on cold-formed steel connections and moment-resisting joints. He completed his M.E. in Structural Engineering from VLB Janakiammal College of Engineering & Technology, Coimbatore, in 2010, where he developed a strong foundation in advanced concrete and steel design. His academic journey began with a B.E. in Civil and Structural Engineering from Annamalai University in 2006. His solid academic background has played a pivotal role in shaping his research and teaching philosophy, focused on practical applications and innovative design solutions.

Research Focus

Dr. Senthil Pandian’s research encompasses a wide range of interests within structural engineering, with a strong emphasis on composite and cold-formed steel structures, finite element analysis, and seismic performance of irregular buildings. He has expanded his focus to deep learning applications in structural diagnostics, and the use of stretchable electronics and reconfigurable antennas in construction monitoring. His interdisciplinary work integrates civil engineering with electronics, particularly in RF antenna design for formwork and infrastructure health monitoring. His goal is to bridge emerging technologies with traditional engineering to develop intelligent, sustainable, and adaptive structures.

Experience

With a blend of academic and industry experience, Dr. Senthil Pandian brings a holistic perspective to civil engineering. He joined VIT Chennai in 2012 and has since played key academic roles including IQAC Coordinator, School Lab In-Charge, and postgraduate research supervisor. Before entering academia, he worked with Consulting Engineering Services (I) Pvt. Ltd., New Delhi, where he was involved in high-profile projects such as the Commonwealth Games stadiums, Panipat Elevated Corridor, and IISER Campus Thiruvananthapuram. His responsibilities spanned structural design (steel trusses and RCC), retrofitting assessments, tender documentation, and feasibility studies for national and international transit systems, including the Nairobi MRTS and Chennai-Trivandrum High-Speed Rail project.

Research Timeline

Dr. Senthil Pandian’s research journey began during his postgraduate studies and intensified with his doctoral work on extended end-plate connections in cold-formed steel. From 2014 onward, he has guided approximately 50 M.Tech and 30 B.Tech projects, and currently supervises 4 Ph.D. scholars working on themes such as smart structural systems, robotic inspection devices, and machine learning applications in civil engineering. His publications span journals indexed in Scopus, SCI, and IEEE, and reflect a steady evolution from core structural mechanics to emerging technologies. Through collaboration with interdisciplinary teams, he continues to expand his research to align with the latest developments in construction innovation.

Awards & Honors

Throughout his career, Dr. Senthil Pandian has been recognized for his dedication to institutional development and research contributions. He is a Lifetime Member of the Institute for Steel Development and Growth (INSDAG) and has held several leadership roles at VIT including Concrete & Structural Lab In-Charge, Civitek Club Coordinator, and TechnoVIT Event Coordinator. He has received multiple appreciations internally for establishing advanced laboratory facilities, integrating technology into civil education, and coordinating industry-academic initiatives. His role as IQAC Coordinator further highlights his commitment to academic quality and strategic institutional growth.

Top-Noted Publication

One of Dr. Senthil Pandian’s most distinguished works is the 2023 article in Soft Computing, titled “An intelligent prediction system for predicting the types of joints on extended endplate long bolted joint using fuzzy rules.” This paper highlights his pioneering effort in applying fuzzy logic and AI to structural joint prediction, improving the accuracy and efficiency of connection classification in steel structures. The research not only addresses practical design challenges but also opens new pathways for integrating computational intelligence in civil engineering design practices. This publication exemplifies his interdisciplinary approach and has received attention for its novelty and relevance in smart structural systems.

  • Enhancing Impact Resistance of Concrete Slabs
    Advances in Science and Technology Research Journal, Aug 2025
    DOI: 10.12913/22998624/204679
    Contributors: Hemanth Kumar Anbu, Udhayanithi P., Karthikeyan Kothandapani, M. Senthilpandian

  • Trash to Treasure: A Review on Integrating Nanomaterial and Industrial Waste for Sustainable Electromagnetic Interference Shielding Composites
    Advances in Science and Technology Research Journal, Apr 2025
    DOI: 10.12913/22998624/200108
    Contributors: G. Loganathan, M. Senthilpandian

  • Utilisation of Solid Waste Polyurethane Foam as Coarse Aggregate in Concrete: An Experimental Study with Ecological and Cost Assessment
    Journal of Material Cycles and Waste Management, Jan 2025
    DOI: 10.1007/s10163-024-02106-2
    Contributors: R. Rooban Kumar, M. Senthilpandian

  • A Review of Utilization of Waste Polyurethane Foam as Lightweight Aggregate in Concrete
    Heliyon, Dec 2024
    DOI: 10.1016/j.heliyon.2024.e40479
    Contributors: R. Roobankumar, M. Senthilpandian

Strength for the Young Innovators Award – Highlighted Topics

  • Synergistic Effects of Graphene Oxide, Steel Wire Mesh and Fibers on the Impact Resistance of Preplaced Aggregate Concrete
    Journal of Building Engineering, Oct 2024
    DOI: 10.1016/j.jobe.2024.110363
    Contributors: G. Murali, K. Karthikeyan, M. Senthilpandian, Leong Sing Wong, Sallal R. Abid, A. Hemanth Kumar

  • Sustainable Concrete Innovation Using Industrial Waste
    Recognized for developing concrete incorporating solid waste polyurethane foam and nanomaterials, offering enhanced mechanical performance and ecological sustainability.
    Citation: Rooban Kumar, R., & Senthilpandian, M. (2025). Utilisation of solid waste polyurethane foam as coarse aggregate in concrete. Journal of Material Cycles and Waste Management. https://doi.org/10.1007/s10163-024-02106-2.

  • AI-Driven Structural Joint Prediction Models
    Awarded for pioneering the application of fuzzy logic and machine learning in predicting extended end-plate joint behavior in steel structures, enabling automation and precision in structural design.
    Citation: Senthilpandian, M., Santhi, M.H., et al. (2023). An intelligent prediction system for predicting the types of joints on extended endplate long bolted joint using fuzzy rules. Soft Computing. https://doi.org/10.1007/s00500-023-08561-z.

  • Smart Infrastructure with Embedded Electronics and Antennas
    Recognized for integrating stretchable electronics and microstrip antennas into concrete structures for structural health monitoring and real-time diagnostics in construction environments.
    Citation: Nivethika, S.D., & Senthilpandian, M. (2022). Microstrip patch antenna for aluminium formwork applications in construction. IC3IoT Proceedings.

  • Mentorship and Capacity Building in Civil Engineering Research
    Acknowledged for mentoring over 50 M.Tech and 30 B.Tech students and guiding Ph.D. research in smart materials, robotics, and computational mechanics, significantly advancing postgraduate research at VIT.

  • Structural Resilience and Impact-Resistant Design
    Honored for his contributions to improving the impact resistance of concrete slabs through material optimization and hybrid reinforcement strategies, enhancing safety and durability in civil infrastructure.
    Citation: Hemanth Kumar Anbu, U., Karthikeyan, K., & Senthilpandian, M. (2025). Enhancing Impact Resistance of Concrete Slabs. Advances in Science and Technology Research Journal. https://doi.org/10.12913/22998624/204679.

Zefeng Lin, Medicine, Best Researcher Award

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Assoc. Prof Zefeng Lin: Associate Professor at Department of Pediatric Surgery, Guangzhou Women and Children’s Medical Center, Guangzhou Medical University, China

Zefeng Lin, MD, PhD, is a pediatric surgeon and translational clinical researcher affiliated with the Guangdong Provincial Key Laboratory of Research in Structural Birth Defect Disease. With dual expertise in surgical intervention and immunological research, he has become a leading figure in pediatric surgical oncology and congenital malformations. His work has significantly advanced the understanding of neonatal biliary atresia, rare thoracic tumors such as pleuropulmonary blastoma and neuroblastoma, and tracheal lesions. He has spearheaded groundbreaking immunotherapy trials and built preclinical models that have set new standards in pediatric disease modeling and translational applications.

Online Profiles

  • ORCID: 0000-0001-7532-9175

  • Dr. Lin maintains professional visibility through academic networks and institutional platforms. His ORCID profile includes his major publications and collaborations. Additional profiles may be available via Guangzhou Medical University and Chinese clinical research networks.

Education

Dr. Lin earned his MD and PhD degrees in Pediatric Surgery from Guangzhou Medical University, where he also completed his clinical training. His doctoral work laid the foundation for his long-term focus on congenital hepatobiliary disorders. He later pursued advanced fellowship training in minimally invasive surgical innovation and translational immunology, equipping him to bridge the gap between molecular research and surgical care.

Research Focus

Dr. Lin’s research encompasses the immune pathogenesis of biliary atresia, genetic susceptibility in structural birth defects, and targeted therapies for pediatric thoracic malignancies. Using state-of-the-art single-cell RNA sequencing, organoid technology, and gene knockout mouse models, his team has uncovered novel T/B cell crosstalk mechanisms and CX3CR1+ CD8+ T cell dysfunction in BA. His work has not only identified IL10, STAT3, and CD14 as key BA-associated genes but also proposed new immune-modulating therapies that are already being tested in clinical trials.

Experience

Dr. Lin serves as Principal Investigator for multiple national and municipal research grants, including a Youth Program from the National Natural Science Foundation of China (NSFC, 2021–2024). His clinical leadership includes managing over 100 complex pediatric surgical cases involving congenital airway abnormalities, rare esophageal conditions, and oncologic resections. He has collaborated on more than 20 major provincial and national research projects, contributing expertise in both translational biology and pediatric surgery, and is recognized for integrating multidisciplinary methods across immunology, genetics, and surgical care.

Research Timeline

Beginning in 2017 with early genetic studies on biliary atresia, Dr. Lin’s research has followed a trajectory of rapid development. In 2018, he created the first chronic mouse model of BA and identified key genetic markers via GWAS. By 2020, his work was featured in CELL, marking a major international milestone. Since then, he has moved into clinical translation, launching trials for anti-CD20 therapy and NAC for BA, supported by national and municipal funding from 2021 to 2024. He continues to lead integrated preclinical-clinical pipelines for rare pediatric conditions.

Awards & Honors

Dr. Lin was honored with the Excellent Poster Award and Most Popular Speaker Award at the 2024 China Rare Disease Congress, recognizing both his scientific innovation and public engagement. He has been an invited speaker at high-level international events, including the 13th Asian Congress of Pediatrics in Hong Kong (2017) and the Nature Women & Children’s Health Symposium in Guangzhou (2018). His achievements reflect not only scientific rigor but also a growing reputation as a thought leader in rare pediatric disease research.

Top-Noted Publication

“Liver Immune Profiling Reveals Pathogenesis and Therapeutics for Biliary Atresia” – CELL, 2020
As Co-First Author, Dr. Lin contributed to the first pediatric surgery study from China published in CELL, one of the world’s top scientific journals. The study used single-cell sequencing to demonstrate a B cell–mediated mechanism of liver damage in neonatal BA. These findings were translated into clinical practice through Rituximab-based immunotherapy trials, which showed improved immune balance and outcomes in BA patients, making this publication a landmark in pediatric hepatology and translational medicine.

Title: Silver Nanoparticle Treatment Ameliorates Biliary Atresia Syndrome in Rhesus Rotavirus Inoculated Mice
Journal: Nanomedicine: Nanotechnology, Biology and Medicine
Year: 2017
DOI: 10.1016/j.nano.2016.11.013
Author: Zefeng Lin (and collaborators)

Abstract Summary

This study explores the potential therapeutic effects of silver nanoparticles (AgNPs) on biliary atresia (BA) syndrome, a rare and life-threatening pediatric liver disease, in a rhesus rotavirus (RRV)-induced mouse model. The research investigates how AgNPs might counteract the pathophysiological changes associated with BA, including biliary obstruction, liver fibrosis, and immune dysregulation, using a well-established animal model mimicking human disease. The study demonstrates that AgNP treatment significantly ameliorates symptoms of BA, including liver injury and inflammation, and provides evidence of immune system modulation. By targeting both the inflammatory and fibrotic components of the disease, AgNPs offer a promising therapeutic approach for BA.

Key Findings and Implications

  • Effectiveness of AgNPs in Modulating Immune Response: The study found that silver nanoparticles exert a beneficial effect on immune system regulation in the mouse model of BA. Specifically, the nanoparticles were shown to suppress the activation of inflammatory markers and modulate immune responses, particularly those related to liver injury and fibrosis.

  • Histopathological and Molecular Evidence: Histological analysis demonstrated a reduction in liver fibrosis and bile duct injury in AgNP-treated mice compared to untreated controls. The molecular mechanisms underlying these effects were explored through gene expression profiling, highlighting the nanoparticles’ ability to downregulate key pro-inflammatory cytokines and fibrotic pathways.

  • Safety and Potential for Clinical Translation: While AgNPs showed therapeutic promise, the study also assessed the safety profile of these nanoparticles. The results indicate that they are well-tolerated in the experimental model, though further studies are needed to confirm the long-term safety and efficacy in clinical settings.

Surendra Solanki, Computer Science, Best Researcher Award

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Doctorate Surendra Solanki: Assistant Professor at Manipal University jaipur, Jaipur, Rajasthan, India

Dr. Surendra Solanki is a passionate academician and data science researcher with extensive experience in artificial intelligence, machine learning, and wireless communication systems. His academic journey is marked by a Ph.D. in Computer Science and Engineering from NIT Bhopal, where his research focused on deep learning-based spectrum sensing for cognitive radio networks. He has hands-on expertise in deep learning frameworks like TensorFlow and PyTorch, along with proficiency in Python, R, and MATLAB. With a multidisciplinary outlook, he actively explores large language models, federated learning, blockchain integration in AI systems, and generative models for vision and NLP tasks. Dr. Solanki combines teaching, research, and practical implementation to address complex real-world problems and empower future technologists.

Online Profiles

Scopus Profile

  • 108 citations from 93 documents, and 15 scanned items

  • An h-index of 4

Education

Dr. Solanki earned his Ph.D. in Computer Science and Engineering from the prestigious Maulana Azad National Institute of Technology (MANIT), Bhopal, where he conducted deep learning-based research on spectrum sensing techniques in cognitive radio systems from 2018 to 2024. He completed his M.Tech. in Computer Science and Engineering from the same institution in 2017 with a CGPA of 7.90; his thesis involved secure data hiding using image steganography. He holds a B.E. degree in Information Technology from the Institute of Engineering and Technology, Devi Ahilya Vishwavidyalaya (DAVV), Indore, graduating in 2012 with 69% marks. His strong academic foundation has enabled him to bridge theory with emerging technologies effectively.

Research Focus

Dr. Solanki’s research interests lie at the intersection of deep learning, wireless networks, and privacy-preserving artificial intelligence. His doctoral research contributed to improved performance in cognitive radio networks through the use of CNNs, RNNs, and hybrid DL architectures. More recently, he has worked extensively with large language models such as BERT, GPT, LLaMA, and Falcon for natural language processing, medical diagnostics, and multi-modal AI systems. His ongoing research explores explainable AI using Grad-CAM and LIME, federated learning for secure health data analytics, AI-driven malware detection, and generative AI for synthetic data creation and model interpretability.

Experience

Dr. Solanki is currently employed as an Assistant Professor in the Department of Artificial Intelligence and Machine Learning at Manipal University Jaipur, where he teaches undergraduate and postgraduate courses, supervises student research, and develops AI-focused curriculum (2023–Present). Previously, he served as a Senior Faculty in IT at SAGE University Indore (through iNurture Education Solutions) from 2022 to 2023, where he taught advanced machine learning and deep learning subjects. Earlier in his career, he worked as an Assistant Manager in eGovernance for the Government of Madhya Pradesh (2014–2015), contributing to digital infrastructure development. His roles have balanced academic instruction, administrative leadership, and applied research.

Research Timeline

Between 2018 and 2024, Dr. Solanki conducted his doctoral research at MANIT Bhopal on deep learning architectures for cognitive radio, resulting in significant publications in IEEE Access and Springer. In 2020, he expanded into blockchain-integrated AI and device authentication systems for smart grids, leading to co-authored IEEE conference papers. From 2021 onward, his research embraced interdisciplinary domains like federated learning in healthcare, Android malware detection using graph neural networks, and self-supervised models for chest X-ray diagnosis. The timeline from 2023 to 2025 shows his contributions in LLM applications, multimodal AI, and knowledge distillation techniques for resource-efficient models in healthcare and audio processing.

Awards & Honors

Dr. Solanki has earned several accolades throughout his academic and professional career. He has authored more than 18 papers in high-impact journals indexed in SCI and Scopus, including Q1 journals such as IEEE Access and Scientific Reports. His innovations have led to the successful filing and publication of 6 patents in AI, Blockchain, and IoT domains. He has received multiple invitations to review for reputed journals and serve as a speaker at IEEE international conferences. His contributions in federated learning, modulation recognition, and AI for healthcare have been appreciated by both academic and industry collaborators, marking him as a notable emerging researcher in applied AI.

Top-Noted Publication

One of Dr. Solanki’s top-recognized publications is titled “A deep ensemble learning approach for squamous cell classification in cervical cancer”, published in Scientific Reports (Nature Portfolio, Q1 Journal) in 2025. This paper proposes a robust ensemble model leveraging deep CNNs and transformers to enhance the accuracy of cervical cancer cell classification, showcasing significant improvements over traditional ML approaches. The work stands out for its clinical relevance, explainability, and technical depth, contributing to the field of AI in medical diagnostics. The publication has attracted significant citations and collaborative interest from researchers working in computational pathology. [DOI: https://doi.org/10.1038/s41598-025-91786-3]

Yadvendra Singh, Engineering, Best Researcher Award

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Doctorate Yadvendra Singh: Post Doctoral Fellow at Oregon State University, Corvallis, Oregon, USA

Dr. Yadvendra Singh is an accomplished optical sensing specialist currently working as a Postdoctoral Fellow at the School of Electrical Engineering and Computer Science, Oregon State University, USA. With over a decade of experience in academia and research, Dr. Singh has built a strong portfolio in the field of optical fiber sensors, plasmonics, and nanophotonics. His work combines advanced theoretical modeling with hands-on experimental implementation, targeting real-world applications such as toxic chemical detection, food quality monitoring, and biosensing. His international exposure across premier Indian institutions and U.S. universities has enriched his technical competencies and collaborative research outlook. He is recognized for his meticulous sensor design using COMSOL Multiphysics and his innovative approach to integrating fiber optics with emerging plasmonic materials.

Online Profiles

Google Scholar Profile

Dr. Singh has contributed significantly to the field of optical sensing, as evidenced by his growing scholarly impact. As of now, he has accumulated over 1,050 citations, with an h-index of 17 and an i10-index of 22, reflecting both the depth and consistency of his research contributions. His work has been cited by researchers across domains such as nanophotonics, optical sensor development, and biosensing. His successful participation in high-impact projects funded by BRNS-DAE and CSIR-India, along with competitive postdoctoral appointments at prestigious institutions like IIT Roorkee, Boise State University, and Oregon State University, further underscores the recognition and value of his scientific contributions in both national and international research communities.

Education

Dr. Singh received his Ph.D. in Electronics Engineering from the Indian Institute of Technology (ISM), Dhanbad in 2021, with a focus on enhancing the performance of fiber Bragg gratings (FBG) and surface plasmon resonance (SPR)-based sensors. His doctoral work, supervised by Prof. Sanjeev Kumar Raghuwanshi, was both theoretical and experimental and included the design, simulation, and characterization of novel optical sensors. He holds a Master of Engineering in Electronic Instrumentation and Control from Thapar University (2011–2013), where he explored electromyography signal analysis using LabVIEW. His undergraduate studies were completed with a B.Tech in Electronics and Communication Engineering from U.P. Technical University in 2009. His academic foundation is further strengthened by his early schooling under the U.P. Board in India.

Research Focus

Dr. Singh’s primary research domains include optical fiber sensors, fiber optic plasmonic and Bragg grating-based configurations, nanophotonic integration, biosensor design, and sensor modeling using COMSOL Multiphysics. He is particularly interested in the development of compact, deployable sensors that utilize plasmonic effects to detect minute refractive index changes for chemical and biological analytes. His work bridges theory and experiment by designing complex sensor architectures using simulation tools such as the Wave Optics, Ray Optics, and AC/DC Modules in COMSOL, and fabricating devices for practical sensing environments. He also has a growing interest in label-free biosensing technologies, evanescent wave interactions, and sensor integration for biomedical and food safety applications.

Experience

Dr. Singh is currently a postdoctoral fellow at Oregon State University, where he is involved in advanced optical sensing and device prototyping. Prior to this, he held postdoctoral research positions at Boise State University (2022) and IIT Roorkee (2021–2022), where he contributed to the development of nanophotonic sensing platforms. His academic journey includes serving as a Teaching Assistant at IIT (ISM) Dhanbad from 2016 to 2021, where he mentored students and supported lab-based teaching while pursuing his Ph.D. Before entering research, he worked as an Assistant Professor at B.T. Kumaon Institute of Technology (2013–2016), an autonomous government college in Uttarakhand. His career began as a trainee at the Dynamic Institute of Automation and Control, where he gained foundational experience in instrumentation and industrial control systems.

Research Timeline

Dr. Singh’s research trajectory reflects a strong interdisciplinary evolution. He began his journey in biomedical instrumentation during his M.E. by working on EMG signal classification. This transitioned into photonics and sensor research during his Ph.D., where he explored fiber Bragg grating modifications and SPR-based configurations for precision sensing. Between 2016 and 2021, his work gained momentum through two major government-funded projects on chemical detection and food adulteration sensors. After completing his doctorate, he moved into postdoctoral roles where he broadened his research into integrated nanophotonics, device fabrication, and computational modeling. His progression from teaching and prototyping in India to cutting-edge sensor development in the United States illustrates his adaptability and research maturity.

Awards & Honors

Dr. Singh’s research was supported by competitive funding from premier agencies such as the Board of Research in Nuclear Sciences (BRNS-DAE) and the Council of Scientific and Industrial Research (CSIR), India. These grants are awarded to select high-impact projects and indicate his credibility as a lead researcher. Although specific personal awards are not explicitly mentioned, his postdoctoral appointments at IIT Roorkee, Boise State University, and Oregon State University reflect merit-based selection and recognition in the research community. His work continues to contribute to strategic sectors including chemical safety, biomedical diagnostics, and food quality assurance.

Top-Noted Publication

Among Dr. Singh’s notable research outputs is the development of a field-deployable fiber Bragg grating sensor for the detection of hazardous toxic chemicals, under a BRNS-DAE-funded initiative. This work integrates nanostructured materials and fiber optics for real-time monitoring applications and exemplifies innovation in harsh-environment sensing. He has also contributed to CSIR-funded research on thin-film evanescent field sensors for food adulteration analysis. His publications reflect a careful balance between numerical simulation and real-world implementation, targeting sensor performance enhancement, sensitivity optimization, and scalability.

  • Surface plasmon biosensor based on Bi₂Te₃ antimonene heterostructure for the detection of cancer cells
    A. Uniyal, B. Chauhan, A. Pal, Y. Singh
    Applied Optics, 61(13), 3711–3719 (2022)
    Citations: 71
    DOI: 10.1364/AO.449682

  • Theoretical analysis of the LRSPR sensor with enhanced FOM for low refractive index detection using MXene and fluorinated graphene
    P. S. Pandey, Y. Singh, S. K. Raghuwanshi
    IEEE Sensors Journal, 21(21), 23979–23986 (2021)
    Citations: 69
    DOI: 10.1109/JSEN.2021.3105834

  • Titanium dioxide (TiO₂) coated optical fiber-based SPR sensor in near-infrared region with bimetallic structure for enhanced sensitivity
    Y. Singh, S. K. Raghuwanshi
    Optik, 226, 165842 (2021)
    Citations: 63
    DOI: 10.1016/j.ijleo.2020.165842

  • Sensitivity enhancement of surface plasmon resonance biosensor with 2D franckeite nanosheets
    B. Karki, S. Sharma, Y. Singh, A. Pal
    Plasmonics, 17(1), 71–78 (2022)
    Citations: 52
    DOI: 10.1007/s11468-021-01470-w

  • Surface plasmon resonance biosensor sensitivity improvement employing 2D materials and BaTiO₃ with bimetallic layers of silver
    A. Uniyal, A. Pal, G. Srivastava, M. M. Rana, S. A. Taya, A. Sharma, B. R. Altahan, Y. Singh, et al.
    Journal of Materials Science: Materials in Electronics, 34(6), 466 (2023)
    Citations: 46
    DOI: 10.1007/s10854-023-10534-1

ISABEL Martinez-Pena y Valenzuela, Neuroscience, Best Researcher Award

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Dr. Isabel Martinez-Peña y Valenzuela: Assistant Professor at Midwestern University, United States

Dr. Isabel Martinez-Peña y Valenzuela is an accomplished neuroscientist with extensive expertise in the molecular and cellular biology of synapses, particularly at the neuromuscular junction (NMJ). She is currently an Assistant Professor in the Physiology Department at Midwestern University’s College of Graduate Studies and College of Dental Medicine. Her career spans over two decades, including significant contributions at institutions such as the University of Michigan and University of La Laguna, Spain. She is widely recognized for her mentorship of students, impactful research on synaptic pathology in metabolic and neurodegenerative diseases, and dedication to both teaching and academic service.

Online Profiles

Google Scholar Profile

As of July 2025, Dr. Martinez-Peña y Valenzuela has accumulated 673 citations overall, with 285 citations since 2020. Her h-index is 16 (10 since 2020), and her i10-index is 19 (11 since 2020), reflecting both the quality and continued relevance of her contributions to the field of neuroscience and neuromuscular biology.

Dr. Martinez-Peña maintains active academic profiles showcasing her publications and collaborations. Her Google Scholar profile reflects a robust citation record in synaptic biology and neuroscience, while her NCBI MyBibliography includes a comprehensive list of peer-reviewed journal articles, conference proceedings, and reviews. These profiles highlight her long-standing research productivity and the translational impact of her studies in neuromuscular function and dysfunction.

Education

She earned her Ph.D. in Neuroscience from the University of La Laguna (ULL), Spain, with a thesis titled “Alterations of the cerebrospinal fluid proteins and subcommissural organ secretion in arterial hypertension and ventricular dilatation: A study in SHR rats.” Her doctoral research laid the foundation for her lifelong interest in cerebrospinal physiology and brain-body communication. Dr. Martinez-Peña also holds a Bachelor of Science in Molecular and Cellular Biology from ULL’s Faculty of Biology, equipping her with interdisciplinary training in physiology, pathology, and molecular medicine.

Research Focus

Her research program explores the structure and function of the neuromuscular synapse under both physiological and pathological conditions. Using transgenic mouse models and in vivo imaging, her lab investigates how obesity, Parkinson’s disease, cancer-induced cachexia, and sleep apnea contribute to synaptic disassembly, impaired neurotransmission, and muscle dysfunction. Dr. Martinez-Peña also studies the role of specific proteins such as acetylcholinesterase, α-dystrobrevin, and α-syntrophin in maintaining synaptic integrity, with the ultimate goal of identifying therapeutic targets for neuromuscular disorders.

Experience

Dr. Martinez-Peña has held a range of academic and research positions in Spain and the United States. She began as an Anatomy Instructor at ULL (1998–2002), followed by postdoctoral training in gastrointestinal and developmental neuroscience at the University of Michigan (2003–2008). From 2009 to 2020, she was a Research Investigator at Michigan’s Department of Molecular, Cellular, and Developmental Biology, where she led independent and collaborative studies on synaptic biology. She later served as a Visiting Assistant Professor at Kalamazoo College (2020–2022), where she taught physiology and mentored undergraduate research. Since 2022, she has been a full-time faculty member at Midwestern University.

Research Timeline

Dr. Martinez-Peña’s research journey began in Spain with studies on the cerebrospinal system and neuroendocrine regulation. In the early 2000s, she transitioned to the University of Michigan, conducting postdoctoral work on neuromuscular physiology. By 2009, she had established herself as an independent investigator, contributing extensively to the fields of synaptic maintenance and neurodegeneration.

Awards & Honors

She has received multiple recognitions for her academic excellence and research mentorship, including the Doctorate Summa Cum Laude from the University of La Laguna and the Cajal Club Fellowship in Madrid (2001). She was honored with the Most Valuable Professor award by Kalamazoo College’s intercollegiate athletics program in 2022 and was selected as a finalist in the 2024 American Medical Association Research Challenge. Additionally, her students have won regional research presentation awards, highlighting her impact as both a scientist and mentor.

Top-Noted Publication

One of Dr. Martinez-Peña’s most influential publications is her 2022 study in Human Molecular Genetics, titled “Distinct roles of the dystrophin-glycoprotein complex: α-dystrobrevin and α-syntrophin in the maintenance of the postsynaptic apparatus of the neuromuscular synapse.” This paper elucidates the molecular mechanisms regulating NMJ stability and offers insights into therapeutic strategies for neuromuscular disorders. It has been widely cited and reflects her leading role in bridging basic and translational neuroscience.
DOI: 10.1093/HMG/ddac041

Dr. Martinez-Peña y Valenzuela’s most impactful research has significantly advanced understanding of the neuromuscular junction, with several landmark studies cited widely in the field of neuroscience and molecular biology:

  1. Schmidt N, Akaaboune M, Gajendran N, Martinez-Pena y Valenzuela I, et al. (2011).
    “Neuregulin/ErbB regulate neuromuscular junction development by phosphorylation of α-dystrobrevin.”
    Journal of Cell Biology, 195(7):1171–1184.
    This foundational paper, cited 122 times, describes the molecular signaling mechanisms involving Neuregulin/ErbB and α-dystrobrevin in NMJ development.
    Link

  2. Herranz-Martin S, Chandran J, Lewis K, Martinez-Pena y Valenzuela I, et al. (2017).
    “Viral delivery of C9orf72 hexanucleotide repeat expansions in mice leads to repeat-length-dependent neuropathology and behavioural deficits.”
    Disease Models & Mechanisms, 10(7):859–868.
    Cited 59 times, this study provides insights into C9orf72-mediated ALS and FTD pathology using a mouse model.
    Link

  3. Krejci E, Martinez-Pena y Valenzuela I, Ameziane R, Akaaboune M. (2006).
    “Acetylcholinesterase dynamics at the neuromuscular junction of live animals.”
    Journal of Biological Chemistry, 281(15):10347–10354.
    This work, cited 46 times, explores real-time regulation of AChE at the NMJ, contributing to understanding of synaptic maintenance.
    Link

  4. Martinez-Pena y Valenzuela I, Pires-Oliveira M, Akaaboune M. (2013).
    “PKC and PKA regulate AChR dynamics at the neuromuscular junction of living mice.”
    PLoS ONE, 8(11):e81311.
    Cited 44 times, this study reveals how key kinases modulate receptor turnover and synaptic plasticity in vivo.
    Link

  5. Martinez-Pena y Valenzuela I, Mouslim C, Akaaboune M. (2010).
    “Calcium/calmodulin kinase II-dependent acetylcholine receptor cycling at the mammalian neuromuscular junction in vivo.”
    Journal of Neuroscience, 30(37):12455–12465.
    Also cited 44 times, this article details the role of CaMKII in receptor recycling, providing mechanistic insights into NMJ regulation.
    Link