Prof. Byung Chang Suh | Biophysics | Research Excellence Award

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Prof. Byung Chang Suh | Biophysics | Research Excellence Award

Prof. Byung Chang Suh | Daegu Gyeongbuk Institute of Science and Technology | South Korea

Byung-Chang Suh, Ph.D., is a professor in brain sciences whose research focuses on the molecular and cellular mechanisms that regulate neuronal excitability and signal transduction. He is widely recognized for advancing the understanding of ion channels, GPCR-mediated pathways, phosphoinositide signaling, and membrane repair processes in neuronal systems. His work highlights how key regulators such as PI(4,5)P₂, TMEM16 scramblases, and M3 receptors influence neuronal function and intracellular communication. He has contributed major insights into ion channel modulation, receptor cross-talk, and the molecular basis of sensory and behavioral regulation in model organisms. His publications span high-impact journals and address topics such as ligand-independent receptor activation, macropinocytosis, endosomal sorting, and neuropeptide-driven behavioral control. He is actively involved in editorial roles across multiple international journals in neuroscience, physiology, and endocrinology. His expertise is often sought through peer review for leading journals in the fields of cell biology, neurophysiology, and molecular signaling. His research productivity has earned institutional recognition for academic excellence. Beyond research, he is deeply committed to teaching, mentoring, and cultivating young scientific talent through undergraduate and pre-college research programs. His multidisciplinary approach integrates biophysics, molecular neuroscience, and cellular physiology to illuminate fundamental principles of brain function. His contributions continue to influence studies on neuronal signaling, disease-related pathways, and mechanisms of cellular homeostasis.

Profile: Orcid

Featured Publications

Jeong, D. J., Woo, J. N., Yun, T., Baek, M., & Suh, B. C. (2025). Kv7 channels as an important contributor to alcohol-induced modulation of neuronal excitability in neonatal rat superior cervical ganglion. Cells, 14(21), 1723.

Kim, B. I., Yeon, J. H., & Suh, B. C. (2025). Palmitoylation code and endosomal sorting regulate ABHD17A plasma membrane targeting and activity. International Journal of Molecular Sciences, 26(20), 10190.

Kim, J. E., Ko, W., Jin, S., Woo, J. N., Jung, Y., Bae, I., Choe, H. K., Seo, D., Hille, B., & Suh, B. C. (2025). Activation of TMEM16E scramblase induces ligand-independent growth factor receptor signaling and macropinocytosis for membrane repair. Communications Biology, 8, Article 35.

Kim, D. Y., Moon, K. M., Heo, W., Du, E. J., Park, C. G., Cho, J., Hahm, J. H., Suh, B. C., Kang, K. J., & Kim, K. (2024). A FMRFamide-like neuropeptide FLP-12 signaling regulates foraging-like behaviors in C. elegans. BMB Reports, 47, 100124.

Ko, W., Lee, E., Kim, J. E., Lim, H. H., & Suh, B. C. (2024). The plasma membrane inner leaflet PI(4,5)P₂ is essential for the activation of proton-activated chloride channels. Nature Communications, 15, 7008.

 

Dr. Byunghong Lee | Quantum Materials | Research Excellence Award

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Dr. Byunghong Lee | Quantum Materials | Research Excellence Award

Dr. Byunghong Lee | Hyundai Motor Group | South Korea

Dr. Byunghong Lee is a materials scientist with expertise in advanced electrochemical systems and clean energy technologies. His research focuses on transparent photovoltaics, perovskite solar cells, and radiative-cooling materials for energy-efficient applications. He develops electrochromic smart windows and multifunctional nanomaterials for sustainable buildings and smart-city solutions. His work includes designing high-performance metal oxides for energy harvesting and storage systems. He explores hybrid inorganic–organic materials, photonic crystal structures, and advanced carbon materials for multifunctional devices. Dr. Lee has pioneered scalable fabrication processes for low-cost and air-stable perovskite solar cells. He integrates nanostructured materials into electrodes for lithium-metal batteries and supercapacitors. His research emphasizes energy-efficient, multifunctional device architectures. He has contributed to the development of novel photocatalytic and clean-air filtration materials. Dr. Lee’s studies in photonic crystals enable tunable optical and thermal properties for smart surfaces. He has authored numerous high-impact journal papers, patents, and book chapters in energy and materials science. His work has influenced industrial applications in mobility PV and building-integrated solar systems. He actively participates in national and international research initiatives and advisory committees. Dr. Lee’s contributions bridge fundamental materials science with practical energy solutions. His innovations have earned recognition in clean energy, nanomaterials, and photonic technologies.

Profile: Scopus

Featured Publications

Keum, J., Choi, J., Kim, S., Kang, G., Lee, B., Lee, M. J., & Kim, W. (2025). Innovative dual-band energy-efficient smart windows using VO₂(M)-based Fabry–Pérot structures for solar and radiative cooling modulation. Materials Today Physics.

Jung, Y., Pyun, K. R., Yu, S., Ahn, J., Kim, J., Park, J. J., Lee, M. J., Lee, B., Won, D., Bang, J., & Ko, S. H. (2025). Laser-induced nanowire percolation interlocking for ultrarobust soft electronics. Nano Micro Letters.

 

Dr. Adane Kassa | Biophysics | Editorial Board Member

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Dr. Adane Kassa | Biophysics | Editorial Board Member

Dr. Adane Kassa | Debre Markos University | Ethiopia

Adane Kassa is a prominent chemist specializing in environmental chemistry, electrochemistry, and materials science. His research focuses on developing eco-friendly and low-cost adsorbents for industrial dye removal, promoting sustainable practices in water treatment. He has extensively worked on the design and application of novel electrochemical sensors for detecting pharmaceuticals and organophosphate pesticides in environmental samples. Kassa’s contributions include advancing voltammetric techniques and creating sensitive analytical methods for environmental monitoring. He has synthesized and characterized metal-organic complexes, including cobalt and manganese derivatives, with notable antibacterial and electrochemical properties. His work bridges fundamental chemistry and practical environmental solutions. Kassa has published in high-impact journals such as Desalination and Water Treatment, ACS Omega, and Journal of Applied Electrochemistry. His studies emphasize sustainability, green chemistry, and cost-effective materials for industrial and environmental applications. He integrates innovative analytical techniques with material design to address real-world challenges. Kassa’s research contributes to safer environmental practices and improved monitoring of pollutants. He demonstrates expertise in chemical synthesis, electrochemical characterization, and sensor development. His interdisciplinary approach connects chemistry, materials science, and environmental engineering. Kassa’s publications showcase his commitment to advancing knowledge in applied and experimental chemistry. He continues to explore new materials and methods for environmental and electrochemical applications. His work impacts both academic research and practical industrial solutions. Overall, Adane Kassa is recognized for his significant contributions to analytical chemistry, sustainable materials, and environmental protection.

Profile: Orcid 

Featured Publications

Kassa, A., Engida, A., & Endaye, M. (2025). Eco-friendly adsorbents for industrial dye removal: A comprehensive review of low-cost alternatives. Desalination and Water Treatment.

Ejigu, A., Tefera, M., Guadie, A., Abate, S. G., & Kassa, A. (2025). A review of voltammetric techniques for sensitive detection of organophosphate pesticides in environmental samples. ACS Omega.

Kassa, A., Abebe, A., Biresaw, M., & Tigineh, G. T. (2024). Application of a synthesized novel poly(μ-(4,4’-bipyridine(bis(1,10-phenanthroline))cobalt(II) chloride)) modified glassy carbon electrode for selective differential pulse voltammetric determination of ciprofloxacin in real samples. SSRN.

Zihon, M., Kassa, A., Tigineh, G. T., Chanie, G., Tesfaye, D., Gebrezgiabher, M., Metto, M., Alem, M. B., Abebe, A., & Thomas, M. (2024). Manganese(II) resorcinolate complex: Synthesis, characterizations, electrochemical behavior, and antibacterial activities. Journal of Applied Electrochemistry.

Dr. Meena S | Chemistry | Editorial Board Member

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Dr. Meena S | Chemistry | Editorial Board Member

Dr. Meena S | Dayananda Sagar College of Engineering | India

Dr. Meena S is a prominent chemist specializing in the synthesis and characterization of multifunctional ferrite-based nanomaterials with applications in photocatalysis, antibacterial activity, and electrochemical sensing. Her research emphasizes green and sustainable methods, including biofuel- and plant-mediated synthesis of nanocomposites, spinel ferrites, and metal-doped materials. She has contributed to developing advanced heterojunction nanomaterials for energy harvesting, environmental remediation, and healthcare applications. Dr. Meena’s work integrates structural, optical, and electrochemical studies to optimize material performance for photocatalytic and sensor-based applications. She has published extensively in high-impact journals such as Inorganic Chemistry Communications, ACS Omega, RSC Advances, and Desalination and Water Treatment, highlighting her expertise in nanomaterials and electrochemical systems. Her research includes exploring S-scheme photocatalysis, carbon-based electrode composites, and ferrite-mediated degradation of pollutants. She actively coordinates and organizes international conferences, webinars, and faculty development programs, promoting knowledge sharing and innovation. Dr. Meena has served as a Special Issue Editor in nanomaterials, contributing to advancing the field through editorial leadership. She has received multiple awards for research excellence, oral presentations, and invited talks, reflecting her scientific impact. Her work bridges chemistry, materials science, and sustainable technology development. She is recognized for mentoring students and fostering research collaborations across disciplines. Her studies in visible-light-driven photocatalysis and electrochemical sensors demonstrate practical applications in environmental and healthcare monitoring. Dr. Meena emphasizes the integration of fundamental research with applied technologies for societal benefit. Her innovative approaches in nanomaterial synthesis and characterization continue to influence emerging research trends. Her ongoing work aims to expand applications of ferrite and heterojunction nanocomposites in energy, sensing, and environmental fields. She is a leading figure in advancing nanotechnology research with a focus on functional materials and green chemistry.

Profiles: Orcid | Google Scholar

Featured Publications

Maiti, N., Chawla, R., Illakiya, T., Mohan, C. R., Meena, S., Sen, S., & George, A. S. (2025). Enhancing telemedicine workflow through secure image transmission. In Title of the Book (pp. xx–xx). IGI Global.

Swamy, S., Gurushantha, K., Meena, S., Shashidhar, S., Srinatha, N., Anantharaju, K. S., Aruna Kumar, D. B., Soumya, C., Deepa, D., & Desai, N. R. (2024). Clove oil mediated combustion method synthesised Dy stabilized lanthanum ferrite: Its application as photocatalyst and antibacterial agent. Desalination and Water Treatment, 320, 100785.

Swamy, S., Gurushantha, K., Keshavamurthy, K., Meena, S., Sreenivasa, S., Soumya, C., Shashidhar, S., Desai, N. R., & Aruna Kumar, D. B. (2024). Green fuel mediated Europium doped lanthanum ferrites: Synthesis, characterization, and their application as photocatalyst and antibacterial agents. Inorganic Chemistry Communications.

Roopashree, B. N., Gurushantha, K., Nagaraju Kottam, & Meena, S. (2024). Recent review on S-scheme photocatalysis. Water, Air, & Soil Pollution, 235, 570.

Pompapathi, K., Anantharaju, K. S., Karuppasamy, P., Meena, S., Uma, B., Siddegowda, S. B., Chowdhury, A. P., & Murthy, H. C. A. (2024). Visible-light-driven Mentha spicata L.-mediated Ag-doped Bi₂Zr₂O₇ nanocomposite for enhanced degradation of organic pollutants, electrochemical sensing, and antibacterial applications. ACS Environmental Au.

Assist. Prof. Dr. Lilan Zhang | Molecular Physics | Best Researcher Award 

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Assist. Prof. Dr. Lilan Zhang | Molecular Physics | Best Researcher Award 

Assist. Prof. Dr. Lilan Zhang | Institute of Tropical Bioscience and Biotechnology, Sanya Research Institute, Chinese Academy of Tropical Agricultural Sciences | China

Dr. Zhang Lilan is an Assistant Professor at the Institute of Tropical Bioscience and Biotechnology, Chinese Academy of Tropical Agricultural Sciences. Her research primarily focuses on animal genetics, breeding, and the molecular mechanisms regulating adipose tissue development, fat deposition, and thermogenesis in pigs. She has made notable contributions to understanding the function of beige adipocytes and the genetic regulation of lipid metabolism. Dr. Zhang utilizes molecular biology, bioinformatics, and gene-editing approaches to uncover key regulators of adipogenesis and energy metabolism. Her work explores the adipose-liver-gut axis and its role in fat deposition and metabolic regulation. She has published extensively in high-impact journals including Cells, Protein & Cell, International Journal of Molecular Sciences, and Animal Feed Science and Technology. Dr. Zhang has also co-invented several patents related to regulating lipid metabolism, cold resistance, and ferroptosis in livestock. Her research has advanced insights into gene–environment interactions in animal physiology. She has been recognized with national awards for outstanding research presentations and contributions to animal genetics. Dr. Zhang has successfully led competitive research projects funded by the NSFC and other national programs. Her studies provide a strong foundation for improving meat quality and animal welfare. She is committed to translating molecular discoveries into practical applications in livestock breeding. Her interdisciplinary approach combines genetics, nutrition, and biotechnology. Dr. Zhang’s work strengthens the understanding of molecular regulators of fat deposition in pigs. She continues to contribute to innovations in animal biotechnology. Her research impact is recognized nationally and internationally in the field of animal science.

Profile: Scopus 

Featured Publications

Zhang, L., Hu, S., Cao, C., Chen, C., Liu, J., Wang, Y., Liu, J., Zhao, J., Tao, C., & Wang, Y. (2022). Functional and genetic characterization of porcine beige adipocytes. Cells, 11(751), 1–15.

Liu, J., Jiang, Y., Chen, C., Zhang, L., Wang, J., Yang, C., Wu, T., Yang, S., Tao, C., & Wang, Y. (2024). Bone morphogenetic protein 2 enhances porcine beige adipogenesis via AKT/mTOR and MAPK signaling pathways. International Journal of Molecular Sciences, 25(7), 3915.

Pan, J., Chui, L., Liu, T., Zheng, Q., Liu, X., Liu, L., Zhao, Y., Zhang, L., Song, M., Han, J., Huang, J., Tang, C., Tao, C., Zhao, J., & Wang, Y. (2023). Fecal microbiota was reshaped in ucp1 knock-in pigs via the adipose-liver-gut axis and contributed to less fat deposition. Microbiology Spectrum, 11(1), e03540-22.

Zhong, R., Gao, L., Zhang, L., Huang, Q., Chen, L., & Zhang, H. (2021). Effects of optimal carbohydrases cocktails screened using an in vitro method on nutrient and energy digestibility of different fiber source diets fed to growing pigs. Animal Feed Science and Technology, 271, 114728.

Liang, X., Tao, C., Pan, J., Zhang, L., Liu, L., Zhao, Y., Fan, Y., Cao, C., Liu, J., Zhang, J., Lam, S. M., Shui, G., Jin, W., Li, W., Zhao, J., Li, L., & Wang, Y. (2020). Rnf20 deficiency in adipocyte impairs adipose tissue development and thermogenesis. Protein & Cell, 12(6), 475–492.

Dr. Chris Jeynes | Irreversible Thermodynamics | Best Researcher Award 

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Dr. Chris Jeynes | Irreversible Thermodynamics | Best Researcher Award 

Dr. Chris Jeynes | Independent scholar, Tredegar, Wales | United Kingdom

Professor Christopher Jeynes is an internationally respected physicist known for his pioneering work in ion beam analysis (IBA), thin film characterisation, and precision materials metrology. Based for most of his career at the University of Surrey’s Ion Beam Centre, he played a leading role in developing IBA into a world-class analytical technique for quantitative materials characterisation. He co-developed the IBA DataFurnace, a globally recognised analytical code, and was the first to demonstrate one-percent absolute accuracy in Rutherford backscattering spectrometry, establishing it as a primary reference method for determining material composition. His work led to the first ISO 17025 accreditation of an IBA laboratory as a calibration facility. Professor Jeynes has contributed extensively to international scientific standards and data quality through collaborations with the International Atomic Energy Agency (IAEA) and the Bureau International des Poids et Mesures (BIPM). He has published more than 300 papers and several influential book chapters shaping the field of ion beam techniques. His research emphasises self-consistent data fitting to minimise systematic uncertainty and improve analytical reliability. Beyond IBA, he has been instrumental in developing the emerging discipline of Quantitative Geometrical Thermodynamics with Dr. Mike Parker, linking geometry and thermodynamics to new theoretical insights. His contributions have had lasting impact on materials science, analytical accuracy, and interdisciplinary physical theory.

Profiles: Scopus | Orcid

Featured Publications

Jeynes, C., & Parker, M. C. (2023, February 23). Relating a system’s Hamiltonian to its entropy production using a complex-time approach [Preprint]. Preprints.

Jeynes, C. (2023). How “Berry phase” analysis of non-adiabatic non-Hermitian systems reflects their geometry. Entropy, 25(2), 390.

Jeynes, C. (2023). Thermodynamics: The new theory of everything? Open Access Government.

Jeynes, C., Parker, M. C., & Barker, M. (2023). The poetics of physics. Philosophies, 8(1), 3.

Evaristo, M., Fernandes, F., Jeynes, C., & Cavaleiro, A. (2023). The influence of H content on the properties of a-C(W):H coatings. Coatings, 13(1), 92.

Velazquez, L., Parker, M. C., & Jeynes, C. (2022, July 6). The geometry of thermodynamics III [Preprint]. Preprints.

Parker, M. C., & Jeynes, C. (2021). A relativistic entropic Hamiltonian–Lagrangian approach to the entropy production of spiral galaxies in hyperbolic spacetime. Universe, 7(9), 325.

Parker, M. C., & Jeynes, C. (2021, April 2). The entropy production of galaxies [Preprint]. Preprints.

Assoc. Prof. Dr. Yonko Stoynov | Computational Nanomechanics | Best Researcher Award

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Assoc. Prof. Dr. Yonko Stoynov | Computational Nanomechanics | Best Researcher Award

Assoc. Prof. Dr. Yonko Stoynov, Technical University of Sofia, Bulgaria

Dr. Yonko D. Stoynov is a distinguished Bulgarian mathematician and academic based at the Technical University of Sofia, where he has built an extensive career in mathematics education and scientific research. His expertise lies in applied mathematics, numerical analysis, and computational modeling, with a particular emphasis on the mathematical simulation of fracture mechanics and magnetoelectroelastic materials at micro- and nanoscales. He has made significant contributions to the theoretical and computational understanding of material behavior under complex loading conditions, developing numerical methods that provide insights into stress distribution, deformation, and fracture propagation in heterogeneous and functional materials. Dr. Stoynov’s research often bridges the gap between abstract mathematical theory and practical engineering applications, exemplified by his work published in ZAMM – Journal of Applied Mathematics and Mechanics, focusing on the boundary integral equation method for analyzing graded nanocracked magnetoelectroelastic half-planes with nanorelief.

He is proficient in advanced programming and software development, particularly using Fortran and Mathematica to construct simulation models that address intricate problems in materials science and mechanics. His computational approaches contribute to the predictive design and analysis of new materials with coupled magneto-electro-mechanical properties, providing valuable insights for emerging technologies in nanotechnology and smart materials. As an academic, Dr. Stoynov has demonstrated exceptional dedication to teaching, offering lectures, tutorials, and laboratory classes in mathematics, mathematical statistics, and numerical methods. He has also been instrumental in mentoring international students through English-language courses and engaging in numerous scientific and educational projects that promote interdisciplinary collaboration.

Dr. Stoynov’s intellectual pursuits reflect a deep commitment to both research excellence and pedagogical innovation. His ability to translate complex mathematical theories into practical engineering solutions has earned him recognition as a key contributor to Bulgaria’s applied mathematics and computational science community. Through his research, he continues to advance the understanding of material behavior under multi-field coupling effects, while his teaching and mentorship efforts foster the next generation of mathematicians and engineers who can integrate theoretical insight with technological innovation.

Profile: Orcid

Featured Publication

Stoynov, Y. D., Dineva, P. S., & Rangelov, T. V. (2025). Boundary integral equation method for graded nanocracked magnetoelectroelastic half‐plane with nanorelief. ZAMM – Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik. Advance online publication.