Baoman Li | Neuroanatomy | Best Researcher Award

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Prof. Baoman Li | Neuroanatomy | Best Researcher Award

Prof. Baoman Li, China Medical University,  China.

Professor Baoman Li stands at the forefront of contemporary neuroscience and pharmacology, merging deep academic knowledge with impactful translational research. From his foundational training at China Medical University to his postdoctoral work in the United States, he has consistently demonstrated excellence in exploring the physiological and molecular mechanisms of the central nervous system. Currently a Professor and Department Director, his work has revealed novel insights into cerebrospinal fluid transport, neuronal excitability regulation, and bipolar disorder modeling. These discoveries have been featured in top-tier journals such as PNAS, Cell Metabolism, and Molecular Psychiatry.

Profile

Scopus

🎓 Early Academic Pursuits

Baoman Li’s journey into the world of biomedical science began with a strong academic foundation. He pursued his Ph.D. in Medical Pharmacology at China Medical University, where he cultivated a keen interest in the intersection of neuroscience, pharmacology, and toxicology. His early research provided him with an in-depth understanding of neural mechanisms and laid the groundwork for his future innovations. Eager to expand his international experience, he furthered his postdoctoral research at the University of Rochester Medical Center (USA) from 2013 to 2014, where he deepened his expertise in neuropharmacological research.

🧪 Professional Endeavors

Currently serving as a Professor and Department Director at the Forensic Analytical Toxicology Department of China Medical University, Professor Li leads a dynamic team of researchers and scholars. His leadership has not only enhanced academic standards within the department but has also positioned it as a center of excellence in the field of neuroglial research and forensic toxicology. His multidisciplinary approach merges analytical science with neuroscience, significantly advancing our understanding of central nervous system (CNS) function and dysfunction.

🧠 Contributions and Research Focus

Professor Li’s research focuses on cutting-edge discoveries related to neural mechanisms, cerebrospinal fluid dynamics, and neuropsychiatric disorders. One of his landmark studies, published in PNAS (2024), identified ependymal cell-mediated cerebrospinal fluid transport from the CNS to peripheral organs, revealing a critical physiological communication pathway. In another pivotal contribution in Cell Metabolism (2025), he elucidated the role of the NE-FFA-Na⁺/K⁺-ATPase pathway in regulating neuronal hyperexcitability and behavioral arousal. Moreover, his groundbreaking development of a circadian disruption-induced manic mouse model for bipolar disorder research (published in Molecular Psychiatry, 2023) has provided a valuable tool for studying mood disorders and developing new therapeutic approaches.

📚 Academic Publications and Editorial Work

With an impressive academic portfolio, Professor Li has authored and edited three influential books centered on neuroglial science, expanding the literature in this specialized domain. His published works include notable titles with ISBNs: 978-7-117-34321-3, 978-3-030-77375-5, and 978-2-88963-497-2. These contributions serve as essential resources for both emerging and seasoned neuroscientists, offering detailed insights into glial biology, neurochemical interactions, and translational research.

🏅 Accolades and Recognition

Professor Li’s scholarly excellence is widely recognized, as reflected in his H-index of 34 and a total citation count of 3,530 according to Web of Science. His ability to consistently produce high-impact research has made him a respected voice in neuroscience and pharmacology. He has successfully led eight research projects funded by prestigious bodies such as the Natural Science Foundation of China and the Ministry of Education, while also currently heading two additional projects supported by the provincial science foundation.

🤝 Industry and Consultancy Impact

Beyond academic circles, Professor Li has extended his expertise into practical applications through four consultancy projects, bridging the gap between research and real-world forensic or pharmaceutical needs. His ability to translate complex neuropharmacological findings into actionable insights for the industry underscores his role as not only a theorist but also a problem-solver and innovator.

🔬 Legacy and Future Contributions

As a scientist, educator, and leader, Professor Baoman Li continues to shape the future of neuroscience and pharmacological toxicology. His ongoing research and collaborative efforts are expected to yield further breakthroughs in understanding brain-behavior relationships and disease mechanisms. With a legacy already marked by innovation and impact, his future contributions promise to enhance diagnostics, treatments, and preventive strategies for neurological and psychiatric disorders. His commitment to mentoring young scholars and editing academic literature ensures that his influence will resonate across generations of researchers to come.

Publication

  • Title: Cerebrospinal Fluid Enters Peripheral Organs by Spinal Nerves Supporting Brain–Body Volume Transmission
    Authors: Li, Baoman; Xia, Maosheng; Harkany, Tibor; Verkhratsky, Alexei N.
    Year: Not specified (likely 2024 or 2025)

 

  • Title: Anti-seizure effects of norepinephrine-induced free fatty acid release
    Authors: Li, Baoman; Sun, Qian; Ding, Fengfei; Smith, Nathan A.; Nedergaard, Maiken
    Year: 2025
    Journal: Cell Metabolism

 

  • Title: Major depressive disorder: hypothesis, mechanism, prevention and treatment
    Authors: Cui, Lulu; Li, Shu; Wang, Siman; Xia, Maosheng; Li, Baoman
    Year: Not specified (likely 2024 or 2025)
    Type: Review (Open access)

 

  • Title: The periaxonal space as a conduit for cerebrospinal fluid flow to peripheral organs
    Authors: Li, Xinyu; Wang, Siman; Zhang, Dianjun; Xia, Maosheng; Li, Baoman
    Year: 2024
    Journal: Proceedings of the National Academy of Sciences of the USA (Open access)

 

  • Title: Dexmedetomidine improves the circulatory dysfunction of the glymphatic system induced by sevoflurane through the PI3K/AKT/ΔFosB/AQP4 pathway in young mice
    Authors: Wang, Shuying; Yu, Xiaojin; Cheng, Lili; Lu, Yan; Wu, Xu
    Year: 2024
    Journal: Cell Death and Disease (Open access)

 

  • Title: Ketamine administration causes cognitive impairment by destroying the circulation function of the glymphatic system
    Authors: Wu, Xue; Wen, Gehua; Yan, Lei; Lu, Yan; Wu, Xu
    Year: 2024
    Journal: Biomedicine and Pharmacotherapy (Open access)

 

  • Title: Correction to: Ketamine Improves the Glymphatic Pathway by Reducing the Pyroptosis of Hippocampal Astrocytes in the Chronic Unpredictable Mild Stress Model
    Authors: Wen, Gehua; Zhan, Xiaoni; Xu, Xiaoming; Lu, Yan; Wu, Xu
    Year: 2024
    Journal: Molecular Neurobiology (Erratum, Open access)

 

  • Title: Ketamine Improves the Glymphatic Pathway by Reducing the Pyroptosis of Hippocampal Astrocytes in the Chronic Unpredictable Mild Stress Model
    Authors: Wen, Gehua; Zhan, Xiaoni; Xu, Xiaoming; Lu, Yan; Wu, Xu
    Year: 2024
    Journal: Molecular Neurobiology

 

  • Title: Trace metals and astrocytes physiology and pathophysiology
    Authors: Li, Baoman; Yu, Weiyang; Verkhratsky, Alexei N.
    Year: 2024
    Journal: Cell Calcium

 

Conclusion:

Dr. Baoman Li is a strong and deserving candidate for the Best Researcher Award. His innovative research, publication in high-impact journals, and interdisciplinary contributions demonstrate excellence and sustained scientific productivity. While he can enhance his visibility and further define his leadership role, his current achievements are more than sufficient to merit this prestigious recognition.

 

Takeshi Sakurai | Neuroanatomy | Best Researcher Award

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Prof. Dr. Takeshi Sakurai | Neuroanatomy | Best Researcher Award

Prof. Dr. Takeshi Sakurai, University of Tsukuba, Japan.

Takeshi Sakurai, M.D., Ph.D., is a distinguished academic whose career spans across key positions in neuroscience, pharmacology, and integrative sleep medicine. After earning his M.D. and Ph.D. from the University of Tsukuba, he embarked on a journey of groundbreaking research, primarily focusing on neurotransmission and sleep regulation. Sakurai’s postdoctoral work in prestigious institutions, coupled with his leadership of major projects like the Yanagisawa Orphan Receptor Project, established him as a leader in molecular neuroscience. Over the years, he has earned recognition through accolades and significant academic positions, including his current role as Professor and Vice Director at the University of Tsukuba’s International Institute for Integrative Sleep Medicine. His research continues to shape the understanding of sleep and brain function, while his influence extends to mentoring the next generation of scientists.

Profile

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Early Academic Pursuits 📚


Takeshi Sakurai’s academic journey began with his medical studies at the University of Tsukuba, where he earned his M.D. in 1989. During his early years at the university, he developed a keen interest in the molecular mechanisms of biological systems. This curiosity led him to pursue a Ph.D. in medicine, which he completed in 1993. His doctoral research focused on the cloning of a cDNA encoding a non-isopetide-selective subtype of the endothelin receptor, a project that was published in Nature in 1990, marking the beginning of his significant contributions to molecular pharmacology.

Professional Endeavors 👨‍⚕️


Following his Ph.D., Sakurai embarked on a promising career in academic research, starting as a postdoctoral fellow at the Institute of Basic Medical Sciences in 1993. His career rapidly advanced as he took on various roles, including Assistant Professor at the same institute. During his tenure, he also worked as a postdoctoral fellow at the prestigious Howard Hughes Medical Institute at the University of Texas Southwestern Medical Center in Dallas from 1995 to 1996. These experiences broadened his expertise in pharmacology and molecular neuroscience, laying the foundation for his future academic leadership roles. By 1999, he became an Associate Professor at the University of Tsukuba and contributed significantly to the university’s research landscape.

Contributions and Research Focus 🧬


Sakurai’s research is primarily centered around molecular neuroscience, pharmacology, and integrative physiology. His work has been pivotal in advancing the understanding of biological systems and their regulation at the molecular level. Notably, his leadership of the Yanagisawa Orphan Receptor Project under the Exploratory Research for Advanced Technology (ERATO) of the Japan Science and Technology Corporation highlights his role in pioneering research on orphan receptors. His continued focus on the mechanisms of neurotransmission and their involvement in sleep regulation has earned him a place as a leading researcher in the field of integrative sleep medicine.

Accolades and Recognition 🏆


Throughout his career, Sakurai has earned widespread recognition for his contributions to medicine and neuroscience. His groundbreaking work on neurotransmitter systems and sleep regulation has led to his appointment as a Professor and Vice Director at the University of Tsukuba’s International Institute for Integrative Sleep Medicine. His research has not only shaped the scientific community’s understanding of brain function but also garnered him numerous accolades, further cementing his reputation as a thought leader in the field.

Impact and Influence 🌍


Sakurai’s impact extends far beyond his own research. As a professor, he has mentored countless students and researchers who have gone on to make their own significant contributions in the fields of neuroscience and pharmacology. His interdisciplinary approach to sleep medicine has influenced research on neurodegenerative diseases, mental health, and drug development. The work he has pioneered in molecular neuroscience has also paved the way for advances in treatment approaches for disorders related to sleep and neurotransmission, offering hope for improved therapeutic interventions.

Legacy and Future Contributions 🔬


Looking ahead, Sakurai’s legacy in neuroscience and integrative sleep medicine is poised to continue influencing both academic research and clinical practice. His innovative research on sleep regulation and the molecular mechanisms underpinning brain function will undoubtedly remain foundational in the future of both basic and applied medical sciences. As he continues his work at the University of Tsukuba, Sakurai’s future contributions will likely expand our understanding of the brain’s intricate systems and their broader implications for human health. His career exemplifies a dedication to advancing science, and his ongoing research promises to address critical challenges in medicine and health.

Academic Leadership and Mentorship 🎓


In addition to his personal research achievements, Sakurai’s role in academic leadership cannot be understated. As a professor at the University of Tsukuba, he has played a pivotal role in shaping the institution’s research direction and academic programs, particularly within the fields of integrative physiology and sleep medicine. His influence extends through the mentorship of students, guiding the next generation of researchers who will continue to build on his work. Sakurai’s commitment to education and his support for innovative research initiatives are key to his lasting impact on the academic and medical communities.

Publication

  • Orexins and orexin receptors: a family of hypothalamic neuropeptides and G protein-coupled receptors that regulate feeding behavior
    Authors: T Sakurai, A Amemiya, M Ishii, I Matsuzaki, RM Chemelli, H Tanaka, …
    Year: 1998

 

  • Cloning of a cDNA encoding a non-isopeptide-selective subtype of the endothelin receptor
    Authors: T Sakurai, M Yanagisawa, Y Takuwat, H Miyazakit, S Kimura, K Goto, …
    Year: 1990

 

  • Genetic ablation of orexin neurons in mice results in narcolepsy, hypophagia, and obesity
    Authors: J Hara, CT Beuckmann, T Nambu, JT Willie, RM Chemelli, CM Sinton, …
    Year: 2001

 

  • Autism genome-wide copy number variation reveals ubiquitin and neuronal genes
    Authors: JT Glessner, K Wang, G Cai, O Korvatska, CE Kim, S Wood, H Zhang, …
    Year: 2009

 

  • The neural circuit of orexin (hypocretin): maintaining sleep and wakefulness
    Author: T Sakurai
    Year: 2007

 

  • Distribution of orexin neurons in the adult rat brain
    Authors: T Nambu, T Sakurai, K Mizukami, Y Hosoya, M Yanagisawa, K Goto
    Year: 1999

 

  • Orexins, orexigenic hypothalamic peptides, interact with autonomic, neuroendocrine and neuroregulatory systems
    Authors: Y Date, Y Ueta, H Yamashita, H Yamaguchi, S Matsukura, K Kangawa, …
    Year: 1999

 

  • Hypothalamic orexin neurons regulate arousal according to energy balance in mice
    Authors: A Yamanaka, CT Beuckmann, JT Willie, J Hara, N Tsujino, M Mieda, …
    Year: 2003

 

  • Plastic stress-strain matrix and its application for the solution of elastic-plastic problems by the finite element method
    Authors: Y Yamada, N Yoshimura, T Sakurai
    Year: 1968

 

  • Chemically defined projections linking the mediobasal hypothalamus and the lateral hypothalamic area
    Authors: CF Elias, CB Saper, E Maratos‐Flier, NA Tritos, C Lee, J Kelly, JB Tatro, …
    Year: 1998

 

Conclusion


Takeshi Sakurai’s work has profoundly impacted the fields of neuroscience, pharmacology, and sleep medicine. His contributions have not only advanced scientific understanding but have also paved the way for practical applications in medical therapies. Through his leadership and mentorship, Sakurai’s legacy is set to endure, with his future research promising further advancements in understanding the complexities of the brain and its regulation. His dedication to advancing both science and education ensures that his influence will continue to resonate in academic and clinical circles for years to come.

 

Jin Yong Hong | Behavioral Neuroscience | Best Researcher Award

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Assoc. Prof. Dr. Jin Yong Hong | Behavioral Neuroscience | Best Researcher Award

Assoc. Prof. Dr. Jin Yong Hong,  Yonsei University Wonju College of Medicine,  South Korea.

Dr. Jin Yong Hong, MD, PhD, is a distinguished neurologist and academic leader with a career grounded in excellence, innovation, and service. Beginning his medical education at Yonsei University, he steadily advanced through rigorous academic and clinical pathways to become an Associate Professor at Yonsei University Wonju College of Medicine. His focused expertise in movement disorders and dementia, enriched by both national and international research experience, especially at the University of Pennsylvania, highlights his dedication to solving complex neurological diseases. Through teaching, research, and clinical practice, he has significantly contributed to the growth of neuroscience and medical education in South Korea.

 

Profile

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Orcid

 

🎓 Early Academic Pursuits

Dr. Jin Yong Hong embarked on his journey in medicine with a deep commitment to academic excellence, beginning with his premedical studies at Yonsei University in Seoul from 2001 to 2003. He swiftly advanced through the rigorous medical curriculum, earning a Bachelor of Medical Science in 2007. Not content with just clinical practice, he pursued higher education with a Master of Medical Science completed in 2014 and culminated his scholarly journey with a Doctorate in Medical Science from the same esteemed institution in 2021. His academic path reflects a relentless pursuit of knowledge in the neurological sciences and a strong foundation in research methodology and clinical application.

🧠 Professional Endeavors in Neurology

Following his graduation, Dr. Hong immersed himself in hands-on clinical training, beginning with an internship and residency in Neurology at the renowned Severance Hospital of the Yonsei University Health System. This period, from 2007 to 2012, was marked by rigorous clinical immersion and specialization. His passion for neuroscience led him to pursue subspecialty training in Movement Disorders and Dementia, completing both clinical and research fellowships. Notably, he expanded his research exposure internationally through a postdoctoral fellowship at the University of Pennsylvania in the United States from 2022 to 2024, further enriching his expertise in neurodegenerative pathology and laboratory medicine.

🔬 Contributions and Research Focus

Dr. Hong’s research has consistently revolved around movement disorders and dementia, placing him at the forefront of understanding neurodegenerative diseases. His clinical experience, paired with extensive research work in both Korea and the United States, underscores his commitment to unraveling the complexities of disorders like Parkinson’s disease, Alzheimer’s disease, and related cognitive impairments. His interdisciplinary approach bridges clinical neurology with translational science, contributing significantly to advancing diagnostic and therapeutic strategies in the field.

🏥 Academic Leadership and Teaching

As an Associate Professor at the Department of Neurology, Yonsei University Wonju College of Medicine, Dr. Hong plays a vital role in shaping the next generation of neurologists. Since 2016, he has not only led clinical initiatives but also mentored students and junior faculty. His previous tenure as a Clinical Assistant Professor from 2014 to 2016 helped lay the groundwork for a collaborative and research-driven academic environment at the Wonju Severance Christian Hospital. His academic roles have helped blend clinical excellence with cutting-edge research in one of Korea’s premier medical institutions.

🏅 Accolades and Recognition

Dr. Hong’s excellence has been consistently recognized by peers and institutions alike. In 2014, he received the Academic Award for Highest Achievement from Yonsei University College of Medicine, marking him as a top-tier scholar among his peers. The same year, he was awarded a Fellowship by the Korean Movement Disorder Society, acknowledging his promising contributions to the field. Further cementing his role as a leading voice in neurological research, he was honored in 2021 with the JMD Article Award, reflecting the impact and relevance of his scholarly publications.

🌍 Impact and Influence in Neurological Science

With active memberships in the Korean Neurological Association, the Korean Movement Disorder Society, and the Korean Dementia Association, Dr. Hong maintains an influential presence within the scientific community. His cross-continental experience, especially through his postdoctoral work in the United States, has positioned him as a bridge between Eastern and Western neurological research paradigms. His publications and ongoing collaborations continue to influence both clinical practice and academic discourse, especially in the diagnosis and management of neurodegenerative conditions.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Jin Yong Hong is poised to continue making groundbreaking contributions in the field of neurology. With a career marked by academic distinction, clinical expertise, and research innovation, he represents a model of holistic excellence in medicine. His future work is likely to delve deeper into translational neuroscience, aiming to develop practical solutions for patients suffering from movement and cognitive disorders. As a mentor, researcher, and clinician, Dr. Hong is building a legacy that will inspire and influence the medical community for years to come.

Publication

  • Neuroanatomical substrates of visual hallucinations in patients with non-demented Parkinson’s disease
    S Shin, JE Lee, JY Hong, MK Sunwoo, YH Sohn, PH Lee
    2012

 

  • Presynaptic dopamine depletion predicts levodopa-induced dyskinesia in de novo Parkinson disease
    JY Hong, JS Oh, I Lee, MK Sunwoo, JH Ham, JE Lee, YH Sohn, JS Kim, …
    2014

 

  • The MMSE and MoCA for screening cognitive impairment in less educated patients with Parkinson’s disease
    JI Kim, MK Sunwoo, YH Sohn, PH Lee, JY Hong
    2016

 

  • The burden of white matter hyperintensities is a predictor of progressive mild cognitive impairment in patients with Parkinson’s disease
    MK Sunwoo, S Jeon, JH Ham, JY Hong, JE Lee, JM Lee, YH Sohn, …
    2014

 

  • Cerebral microbleeds in patients with Parkinson’s disease
    JH Ham, H Yi, MK Sunwoo, JY Hong, YH Sohn, PH Lee
    2014

 

  • Subjective cognitive decline predicts future deterioration in cognitively normal patients with Parkinson’s disease
    JY Hong, MK Sunwoo, SJ Chung, JH Ham, JE Lee, YH Sohn, PH Lee
    2014

 

  • Clinical and biomarker characteristics according to clinical spectrum of Alzheimer’s disease (AD) in the validation cohort of Korean Brain Aging Study for the Early Diagnosis …
    J Hwang, JH Jeong, SJ Yoon, KW Park, EJ Kim, B Yoon, JW Jang, HJ Kim, …
    2019

 

  • Subjective cognitive complaints and objective cognitive impairment in Parkinson’s disease
    JY Hong, Y Lee, MK Sunwoo, YH Sohn, PH Lee
    2018

 

  • Neurocognitive and atrophic patterns in Parkinson’s disease based on subjective memory complaints
    JY Hong, JE Lee, YH Sohn, PH Lee
    2012

 

  • Telomere shortening reflecting physical aging is associated with cognitive decline and dementia conversion in mild cognitive impairment due to Alzheimer’s disease
    SH Koh, SH Choi, JH Jeong, JW Jang, KW Park, EJ Kim, HJ Kim, JY Hong, …
    2020

 

🧾 Conclusion

Dr. Hong’s journey illustrates the profound impact one dedicated individual can make within the scientific and medical communities. His legacy is already evident in his scholarly achievements, the students he mentors, and the patients he serves. As he continues to advance the understanding and treatment of neurological conditions, Dr. Hong remains a beacon of academic integrity, scientific rigor, and compassionate care. His future promises continued breakthroughs that will shape the field of neurology and bring hope to countless lives affected by neurodegenerative disorders.

Ali Mehri | Neuroscience | Neuroscience Research Pioneer Award

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Dr. Ali Mehri | Neuroscience | Neuroscience Research Pioneer Award

Dr. Ali Mehri Babol, Noshirvani University of Technology, Iran.

Dr. Ali Mehri is a prominent physicist whose academic journey has bridged the fields of solid-state physics, data science, and complex systems. With a Ph.D. in Solid State Physics from the University of Zanjan, his research explores novel interdisciplinary areas such as text mining, complex networks, and thermal and electronic transport in nanostructures. His work, particularly in the application of physical principles to data mining and linguistic studies, has significantly contributed to both theoretical and applied physics. Additionally, his research on the statistical properties of irrational numbers and the connection between Zipf’s exponent and language distribution has broadened the scope of complex systems analysis.

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Early Academic Pursuits 🎓

Dr. Ali Mehri began his academic journey in physics with a focus on solid-state physics. He completed his Bachelor’s degree in Solid State Physics at Kharazmi University in Tehran, Iran, in 2002. His passion for condensed matter physics led him to pursue a Master’s degree at the Institute for Advanced Studies in Basic Sciences (IASBS), Zanjan, where he focused on colloidal monolayers in the presence of periodic light fields. Under the guidance of Professor Mir Faez Miri, he laid the foundation for his future research. In 2008, Dr. Mehri earned his Ph.D. in Solid State Physics from the University of Zanjan, where he studied the role of entropy in text mining under the supervision of Professor Amir Hossein Darooneh. This pivotal research provided him with a unique perspective that blends physics with data science.

Professional Endeavors 💼

After completing his education, Dr. Mehri embarked on a career in academia, where he has established himself as a dedicated educator and researcher. He currently serves as a faculty member at the Department of Physics, Babol Noshirvani University of Technology. His professional journey is marked by his deep involvement in research, teaching, and mentoring students, particularly in the fields of data and text mining, complex networks theory, and nanostructures. Over the years, he has collaborated with various national and international researchers, enhancing the global visibility of his work in these specialized areas of study.

Contributions and Research Focus 🔬

Dr. Mehri’s research interests lie at the intersection of physics and data science. His work on text mining using the Hurst exponent is a significant contribution to the emerging field of applying physical principles to analyze textual data. He has also explored the intriguing topic of irrational numbers by studying statistical distances to determine the order of digits. Furthermore, Dr. Mehri’s research extends to the correlation between Zipf’s exponent and the geographical distribution of human languages, which connects his expertise in complex networks theory with linguistics. His exploration of thermal and electronic transport in nanostructures adds a solid foundation to his contributions in condensed matter physics.

Accolades and Recognition 🏅

Throughout his academic career, Dr. Ali Mehri has received numerous accolades for his research contributions. His work, particularly in data mining and complex networks, has earned him recognition both in Iran and internationally. Dr. Mehri’s research has been cited in various scientific journals, showcasing the relevance and impact of his work in advancing knowledge within his fields. His academic achievements have solidified his reputation as a forward-thinking physicist who bridges the gap between theoretical and applied sciences.

Impact and Influence 🌍

Dr. Mehri’s work has had a profound impact on various scientific communities, particularly in the fields of data mining, complex networks, and nanostructures. By introducing concepts like the Hurst exponent to text mining and exploring the relationships between statistical distances and irrational numbers, his research has influenced not only physics but also the interdisciplinary applications of data science. His contributions to understanding the connection between language distribution and Zipf’s law have opened new avenues for researchers in both physics and linguistics, highlighting the diverse impact of his work across disciplines.

Legacy and Future Contributions 🕰️

As Dr. Mehri continues to push the boundaries of research, his legacy will be defined by his ability to merge complex concepts from physics with innovative methodologies from data science. His future contributions are expected to further enhance the understanding of nanostructures, electronic transport, and complex systems. Moreover, his pioneering work in text mining and the analysis of irrational numbers has the potential to lead to groundbreaking advancements in computational physics and data analytics. As his research evolves, Dr. Mehri’s work will undoubtedly inspire future generations of physicists and data scientists, reinforcing his lasting influence in these fields.

Publication

  • Title: The complex networks approach for authorship attribution of books
    Authors: A Mehri, AH Darooneh, A Shariati
    Year: 2012

 

  • Title: Variation of Zipf’s exponent in one hundred live languages: A study of the Holy Bible translations
    Authors: A Mehri, M Jamaati
    Year: 2017

 

  • Title: A nonextensive modification of the Gutenberg–Richter law: q-stretched exponential form
    Authors: AH Darooneh, A Mehri
    Year: 2010

 

  • Title: Word ranking in a single document by Jensen–Shannon divergence
    Authors: A Mehri, M Jamaati, H Mehri
    Year: 2015

 

  • Title: The role of entropy in word ranking
    Authors: A Mehri, AH Darooneh
    Year: 2011

 

  • Title: Keyword extraction by nonextensivity measure
    Authors: A Mehri, AH Darooneh
    Year: 2011

 

  • Title: Tsallis entropy, escort probability and the incomplete information theory
    Authors: AH Darooneh, G Naeimi, A Mehri, P Sadeghi
    Year: 2010

 

  • Title: Text mining by Tsallis entropy
    Authors: M Jamaati, A Mehri
    Year: 2018

 

  • Title: Power-law regularities in human language
    Authors: A Mehri, SM Lashkari
    Year: 2016

 

  • Title: Non-extensive distribution of human eye photoreceptors
    Authors: A Mehri
    Year: 2017

 

Conclusion

Dr. Mehri’s professional career, marked by teaching and research at Babol Noshirvani University of Technology, has earned him national and international recognition. His research continues to influence fields as diverse as data science, linguistics, and condensed matter physics. Looking ahead, his work promises to advance the understanding of nanostructures and foster the further integration of physics with computational and data sciences. Dr. Mehri’s legacy will likely continue to inspire future generations of scientists, underscoring the importance of interdisciplinary collaboration in driving scientific progress.

Hiroshi Yamada | Neuroscience | Excellence in Innovation

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Mr. Hiroshi Yamada | Neuroscience | Excellence in Innovation

Mr. Hiroshi Yamada, Medical/Tsukuba, Japan.

H. Yamada, born in Kasugai, Aichi, Japan, has built an impressive academic and professional career in neuroscience. After earning his Bachelor of Science from Tohoku University, he pursued a Master’s degree at Osaka University and later obtained his Ph.D. from Kyoto Prefectural University of Medicine. His research journey took him from postdoctoral studies in Japan to New York University, where he collaborated with renowned neuroscientist Paul W. Glimcher. Returning to Japan, he served as Section Chief at the National Center of Neurology and Psychiatry before joining the University of Tsukuba, where he progressed from Assistant Professor to Associate Professor. His research focuses on neural mechanisms, contributing significantly to neuroscience through both theoretical and practical advancements.

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🎓 Early Academic Pursuits

H. Yamada’s academic journey reflects a deep-rooted passion for science and medicine. Born on September 9, 1977, in Kasugai, Aichi, Japan, he pursued a Bachelor of Science degree from the Faculty of Science at Tohoku University, graduating in 2000. Driven by a desire to deepen his understanding of human biology, he earned his Master of Arts from the Faculty of Medicine at Osaka University in 2002. His academic pursuits culminated in a Ph.D. from the Graduate School of Kyoto Prefectural University of Medicine in 2005, where he laid the groundwork for his future research in neuroscience.

🧠 Professional Endeavors in Neuroscience

H. Yamada’s professional career began with postdoctoral research at Kyoto Prefectural University of Medicine under the mentorship of Minoru Kimura, focusing on advanced neurological studies. His pursuit of global scientific exposure led him to New York University in 2008, where he worked with renowned neuroscientist Paul W. Glimcher. Upon returning to Japan, Yamada took on a leadership role as Section Chief at the National Center of Neurology and Psychiatry, National Institute of Neuroscience, from 2011. This role was pivotal in shaping his expertise in neurological research, ultimately leading to his tenure as Assistant Professor at the University of Tsukuba in 2013, and later as Associate Professor in 2022.

🔬 Contributions and Research Focus

Throughout his career, H. Yamada has been dedicated to unraveling the complexities of the human brain. His research primarily focuses on neuroscience, exploring neural mechanisms underlying behavior and cognition. At the University of Tsukuba, he has contributed significantly to the understanding of brain functions, merging experimental data with theoretical models to advance the field. His collaborations with international experts have enriched his approach, making his work both diverse and impactful.

🏅 Accolades and Recognition

Yamada’s contributions to neuroscience have earned him recognition within the academic community. His leadership roles and tenured position at the University of Tsukuba reflect his outstanding research and teaching capabilities. His work at prestigious institutions like New York University and the National Center of Neurology and Psychiatry has further solidified his reputation as a respected neuroscientist, contributing to both national and international scientific advancements.

🌍 Impact and Influence

H. Yamada’s research has had a profound impact on the field of neuroscience, influencing both academic circles and clinical practices. His studies on neural behavior have provided insights that bridge the gap between theoretical neuroscience and practical applications, aiding in the development of treatments for neurological disorders. As an educator, he has mentored numerous students, fostering the next generation of neuroscientists.

🚀 Legacy and Future Contributions

Looking ahead, H. Yamada is committed to expanding the horizons of neuroscience through innovative research and global collaborations. His legacy is not only reflected in his published work but also in the students and researchers he has inspired. As he continues his journey at the University of Tsukuba, his focus remains on advancing scientific knowledge and contributing to the global understanding of the human brain.

💡 A Lifelong Dedication to Science

H. Yamada’s life is a testament to the power of curiosity and dedication. From his early academic days in Tohoku to his current role as an Associate Professor, he has consistently pursued excellence in neuroscience. His journey underscores the importance of interdisciplinary research, mentorship, and the relentless quest for knowledge, leaving a lasting mark on the scientific community.

Publication

  • Title: Tonically active neurons in the primate caudate nucleus and putamen differentially encode instructed motivational outcomes of action
    Authors: H. Yamada, N. Matsumoto, M. Kimura
    Year: 2004

 

  • Title: Roles of the lateral habenula and anterior cingulate cortex in negative outcome monitoring and behavioral adjustment in nonhuman primates
    Authors: T. Kawai, H. Yamada, N. Sato, M. Takada, M. Matsumoto
    Year: 2015

 

  • Title: Thirst-dependent risk preferences in monkeys identify a primitive form of wealth
    Authors: H. Yamada, A. Tymula, K. Louie, P.W. Glimcher
    Year: 2013

 

  • Title: Juxtacellular labeling of tonically active neurons and phasically active neurons in the rat striatum
    Authors: H. Inokawa, H. Yamada, N. Matsumoto, M. Muranishi, M. Kimura
    Year: 2010

 

  • Title: Free choice shapes normalized value signals in medial orbitofrontal cortex
    Authors: H. Yamada, K. Louie, A. Tymula, P.W. Glimcher
    Year: 2018

 

  • Title: Tonically active neurons in the striatum encode motivational contexts of action
    Authors: M. Kimura, H. Yamada, N. Matsumoto
    Year: 2003

 

  • Title: Tonic firing mode of midbrain dopamine neurons continuously tracks reward values changing moment-by-moment
    Authors: Y. Wang, O. Toyoshima, J. Kunimatsu, H. Yamada, M. Matsumoto
    Year: 2021

 

  • Title: Roles of centromedian parafascicular nuclei of thalamus and cholinergic interneurons in the dorsal striatum in associative learning of environmental events
    Authors: K. Yamanaka, Y. Hori, T. Minamimoto, H. Yamada, N. Matsumoto, et al.
    Year: 2018

 

  • Title: Inactivation of the putamen selectively impairs reward history-based action selection
    Authors: M. Muranishi, H. Inokawa, H. Yamada, Y. Ueda, N. Matsumoto, M. Nakagawa, et al.
    Year: 2011

 

  • Title: Goal-directed, serial and synchronous activation of neurons in the primate striatum
    Authors: M. Kimura, N. Matsumoto, K. Okahashi, Y. Ueda, T. Satoh, T. Minamimoto, et al.
    Year: 2003

 

Conclusion

H. Yamada’s career is a reflection of his dedication to advancing the understanding of the human brain. His academic achievements, leadership roles, and research contributions have left a lasting impact on the neuroscience community. As he continues his work at the University of Tsukuba, his legacy is defined not only by his scientific discoveries but also by his mentorship and influence on future generations of researchers. His journey stands as an inspiring example of the pursuit of knowledge and the transformative power of science.

Karim Abbasian | Functional Brain Connectivity | Excellence in Research

Posted on by Neuroscientists

Assist Prof Dr.Karim Abbasian | Functional Brain Connectivity | Excellence in Research

Assist Prof Dr. Karim Abbasian University of Tabriz Iran

Dr. Karim Abbasian is an Associate Professor at the University of Tabriz, specializing in optical systems, quantum electronics, and nanophotonics. With a PhD in Optical Integrated Circuit Design, he has over 55 peer-reviewed publications and extensive teaching experience in advanced topics like Quantum Optics and Nanotechnology. His research focuses on all-optical systems, solar cells, and biosensors. Dr. Abbasian has held key administrative roles, including Rector of University of Bonab, and has been recognized for his contributions to research and teaching. His work is instrumental in advancing optical and quantum technologies for future applications.

profile

google scholar

Academic Position

Current Role: Associate Professor, Faculty of Electrical & Computer Engineering, University of Tabriz

Educational Background

Ph.D. in Optical Integrated Circuit Design from University of Tabriz, 2008Thesis: Electromagnetically Induced Transparency (EIT) for Realization of All-Optical Systems.M.Sc. in Electronic Engineering, University of Tarbiat Modarres, 1997.Thesis: On-Line Recognition of Handwritten Farsi Characters.B.Sc. in Electronic Engineering, University of Urumieh, 1994.

Teaching Experience

Courses taught at undergraduate, master’s, and PhD levels include:Magnetic Resonance Imaging (MRI), NanoPhotonics, Quantum Electronics, NanoElectronics, BioElectromagnetics, Quantum Optics, and more.

Research Interests

All-Optical Systems and Devices.Plasmonic and Nanophotonic Systems.Quantum Computing, Semiconductor Nanocrystals.Solar Cell Design, Optical Biosensors.Electromagnetic Fields in Tissue Engineering.Quantum Electronics, Quantum Cellular Automata.

Administrative Roles

Rector, University of Bonab (2017-2019).Dean, Faculty at University of Bonab (2002-2005).Vice Dean at University of Tabriz and University of Bonab (1999-2005).

Honors & Awards

Distinguished Researcher at University of Tabriz (2009, 2011, 2014).Distinguished Teacher at University of Tabriz (2010)Multiple employment grades for research and management excellence (2011, 2019)

📚 Publications

  • Ultra-fast all-optical plasmonic switching in near infra-red spectrum using a Kerr nonlinear ring resonator
    T. Nurmohammadi, K. Abbasian, R. Yadipour
    Optics Communications, 2018

 

  • All-optical analog-to-digital converter based on Kerr effect in photonic crystal
    D. Jafari, T. Nurmohammadi, M.J. Asadi, K. Abbasian
    Optics & Laser Technology, 2018

 

  • A proposal for a demultiplexer based on plasmonic metal–insulator–metal waveguide-coupled ring resonator operating in near-infrared spectrum
    T. Nurmohammadi, K. Abbasian, R. Yadipour
    Optik, 2017

 

  • Long wavelength infrared photodetector design based on electromagnetically induced transparency
    M. Zyaei, H.R. Saghai, K. Abbasian, A. Rostami
    Optics Communications, 2008

 

  • Low voltage, high modulation depth graphene THz modulator employing Fabry–Perot resonance in a metal/dielectric/graphene sandwich structure
    B. Jafari, H. Soofi, K. Abbasian
    Optics Communications, 2020

 

  • Modeling and analysis of room-temperature silicon quantum dot-based single-electron transistor logic gates
    M. Miralaie, M. Leilaeioun, K. Abbasian, M. Hasani
    Journal of Computational and Theoretical Nanoscience, 2014

 

  • Ultra-fast all-optical plasmon induced transparency in a metal–insulator–metal waveguide containing two Kerr nonlinear ring resonators
    T. Nurmohammadi, K. Abbasian, R. Yadipour
    Journal of Optics, 2018

 

  • Efficiency optimization in a rainbow quantum dot Solar cell
    A. Rostami, K. Abbasian, N. Gorji
    International Journal on Technical and Physical Problems of Engineering, 2011

 

  • A novel proposal for ultra-high resolution and compact optical displacement sensor based on electromagnetically induced transparency in ring resonator
    R. Yadipour, K. Abbasian, A. Rostami, Z. Koozekanani
    Progress In Electromagnetics Research, 2007

 

  • Analytical modeling of quality factor for shell type microsphere resonators
    R. Talebi, K. Abbasian, A. Rostami
    Progress In Electromagnetics Research B, 2011

 

  • All-optical tunable mirror design using electromagnetically induced transparency
    K. Abbasian, A. Rostami, Z. Koozekanani
    Progress In Electromagnetics Research M, 2008

 

  • A three-core hybrid plasmonic polarization splitter designing based on the hybrid plasmonic waveguide for utilizing in optical integrated circuits
    L. Shirafkan Dizaj, K. Abbasian, T. Nurmohammadi
    Plasmonics, 2020

Conclusion

Dr. Karim Abbasian’s extensive academic and research career highlights his significant contributions to the fields of optics, photonics, and nanotechnology. His leadership roles and innovative research on all-optical systems, solar cells, and biosensors underscore his commitment to advancing both theoretical knowledge and practical applications. His achievements, including numerous publications and teaching excellence, place him as a prominent figure in the scientific community. Dr. Abbasian’s work continues to shape the future of optical and quantum technologies, driving progress in critical areas that have wide-reaching implications for science and industry.