Tahereh Momeni Isfahani | Neuroscience & Education | Best Researcher Award

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Assoc. Prof. Dr. Tahereh Momeni Isfahani | Neuroscience & Education | Best Researcher Award

Assoc. Prof. Dr. Tahereh Momeni Isfahani,  Ar.C.,Arak Branch, Islamic Azad University,  Iran.

Dr. Taherh Momeni Isfahani is a distinguished chemist and academic affiliated with the Islamic Azad University, Arak Branch. Her academic journey is rooted in Iran’s top institutions, where she earned her B.Sc., M.Sc., and Ph.D. in Chemistry. Her research focuses on the development of advanced electrochemical sensors, with a strong emphasis on medical and environmental applications. Her recent work, involving a novel pencil graphite electrode electrospun with Poly-Sudan Black-B for dopamine analysis, has garnered significant recognition and was provisionally nominated for the Best Researcher Award. In addition to her active research output, she contributes to the scientific community as a faculty member and mentor, fostering innovation and academic excellence within her field.

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🎓 Early Academic Pursuits

Dr. Taherh Momeni Isfahani’s academic journey began with a strong foundation in chemistry, which she pursued with unwavering dedication at the Islamic Azad University of Arak, Iran. Her passion for analytical chemistry was evident from her undergraduate years, and she continued to build on that foundation with a Master’s degree from the University of Isfahan, where she worked on the development of an optical sensor for nickel (II) ion detection. Her intellectual curiosity and academic discipline culminated in a Ph.D. in Chemistry from her alma mater in Arak, where she focused on advanced spectrophotometric techniques and chemometric methods for the simultaneous determination of cations and equilibrium studies.

🧪 Professional Endeavors

Dr. Momeni currently serves as a member of the Science Committee at the Arak Branch of the Islamic Azad University, where she contributes both as a researcher and academic. Her professional role reflects a balance between teaching, research, and academic leadership. With deep expertise in analytical chemistry and instrumentation, she plays a pivotal role in guiding students and contributing to the scientific community through her research initiatives. Her involvement in the academic landscape of Iran has enriched the scientific discourse within her institution and beyond.

🔬 Contributions and Research Focus

A core focus of Dr. Momeni’s work lies in electrochemical sensing and analytical techniques, particularly for biomedical applications. Her research includes the fabrication of electrochemical sensors, development of polymeric membrane-based sensors, and exploration of chemometric methods in chemical analysis. In her most recent study, she designed a sensitive electrochemical sensor using a pencil graphite electrode electrospun with poly-Sudan Black-B, aimed at detecting dopamine in plasma samples—a critical advancement in bioanalytical chemistry. Her work stands at the intersection of innovation and application, addressing real-world challenges in medical diagnostics and environmental monitoring.

🏅 Accolades and Recognition

Dr. Momeni’s recent publication in the Journal of Cluster Science (2025) has garnered recognition and was provisionally nominated for the prestigious ‘Best Researcher Award’. This acknowledgment highlights the scientific merit and practical value of her research. It serves as a testament to her perseverance and commitment to pushing the boundaries of sensor development in analytical chemistry. Her growing list of publications reflects both depth and relevance in her chosen field.

🌍 Impact and Influence

Through her contributions, Dr. Momeni has significantly influenced the field of analytical chemistry within the academic and applied research settings in Iran. Her work has not only advanced sensor technologies but also impacted how chemical analysis is approached in complex biological and environmental systems. By designing cost-effective and accessible sensing platforms, she paves the way for more accurate and affordable diagnostic tools, especially in regions with limited access to high-end technology.

👩‍🔬 Legacy and Future Contributions

Dr. Momeni’s research legacy is rooted in her dedication to solving practical problems through precise scientific inquiry. As she continues to explore advanced materials and electrode technologies, her future work promises to delve deeper into biosensor innovation and multi-ion detection systems. Her mentorship of young scientists and contributions to curriculum development ensure that her impact extends beyond the lab, inspiring the next generation of chemists and researchers.

Publication

  • Spectrophotometric determination of mercury in water samples after cloud point extraction using nonionic surfactant Triton X-114 – A Niazi, T Momeni-Isfahani, Z Ahmari – 2009

 

  • Decolorization of crystal violet from aqueous solutions by a novel adsorbent chitosan/nanodiopside using response surface methodology and artificial neural network-genetic – SG Nasab, A Semnani, A Teimouri, MJ Yazd, TM Isfahani, S Habibollahi – 2019

 

  • Removal of Congo red from aqueous solution by hydroxyapatite nanoparticles loaded on zein as an efficient and green adsorbent: response surface methodology and artificial – S Ghanavati Nasab, A Semnani, A Teimouri, H Kahkesh, … – 2018

 

  • Development of an optical chemical sensor based on 2-(5-bromo-2-pyridylazo)-5-(diethylamino) phenol in Nafion for determination of nickel ion – MK Amini, T Momeni-Isfahani, JH Khorasani, M Pourhossein – 2004

 

  • Prediction of oral acute toxicity of organophosphates using QSAR methods – M Kianpour, E Mohammadinasab, TM Isfahani – 2021

 

  • Spectrophotometric determination of acidity constants of 2-(2-Thiazolylazo)-Cresol in various water–organic solvent media mixtures using chemometrics methods – T Momeni-Isfahani, A Niazi – 2014

 

  • Superparamagnetic core‐shell metal–organic framework Fe3O4@Ni‐MOF as efficient catalyst for oxidation of 1,4‐dihydropyridines using hydrogen peroxide – M Janani, MA Senejani, TM Isfahani – 2021

 

  • Hofmann N‐alkylation of aniline derivatives with alcohols using ferric perchlorate immobilized on SiO2 as a catalyst through Box–Behnken experimental design – M Ghanimati, M Abdoli Senejani, TM Isfahani, MA Bodaghifard – 2018

 

  • Quantitative Structure-Property Relationship (QSPR) investigation of camptothecin drugs derivatives – N Ahmadinejad, F Shafiei, TM Isfahani – 2018

 

  • Application of robust syringe-to-syringe dispersive liquid-phase microextraction method for preconcentration and determination of mercury with the aid of an experimental design – M Hayati, M Ramezani, G Rezanejade Bardajee, T Momeni Isfahani – 2022

 

Conclusion

Dr. Taherh Momeni Isfahani exemplifies the qualities of a dedicated and innovative researcher. Her consistent focus on solving real-world problems through advanced sensor technologies, coupled with her academic contributions and recent recognition at an international level, makes her an ideal candidate for the Best Researcher Award. Her work not only advances the field of analytical chemistry but also inspires future research aimed at practical, impactful solutions in healthcare and environmental monitoring. With her strong academic foundation, innovative mindset, and growing influence, Dr. Momeni is poised to continue making meaningful contributions to science and society.

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.