Roghieh Hajiboland | Research Excellence | Research Excellence Award

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Dr. Roghieh Hajiboland | Research Excellence | Research Excellence Award

Dr. Roghieh Hajiboland | University of Tabriz | Iran

Prof. Roghieh Hajiboland is a distinguished Full Professor of Plant Physiology in the Department of Plant, Cell and Molecular Biology, renowned for her extensive contributions to mineral nutrition, abiotic stress tolerance, and plant–microbe interactions. She earned her Ph.D. in Plant Physiology from the University of Hohenheim, Germany, and has since developed a globally recognized research portfolio focused on nutrient uptake, transport physiology, heavy metal tolerance, salinity and drought stress adaptation, aluminum toxicity, and silicon- and selenium-mediated stress mitigation in diverse crop and halophytic species. With an active research career spanning more than a decade, Prof. Hajiboland has produced a substantial body of high-impact scientific work, including 60+ international journal articles, influential compilation books with Springer, Elsevier, Wiley, and Shayesteh Publishers, and numerous national publications and conference presentations. Her studies have advanced fundamental understanding of mineral element functions, nutrient remobilization, antioxidant responses, water relations, and physiological/biochemical mechanisms underlying stress resilience in plants. She is widely recognized for pioneering research on tea plant physiology, halophyte species, intercropping systems, and the roles of aluminum, selenium, and silicon in plant stress biology. Prof. Hajiboland teaches a broad range of undergraduate, postgraduate, and doctoral-level courses, including Plant Physiology, Plant Growth and Development, Mineral Nutrition, Uptake and Transport in Plants, Transport Physiology, Evolutionary Biology, and Plant–Microbe Interactions. Her academic leadership includes supervising graduate research, mentoring young scientists, and contributing actively to departmental and institutional development. Her scholarly visibility is supported through Google Scholar, Scopus, and ResearchGate profiles, reflecting strong citation influence and international collaboration, particularly with leading researchers in Europe. Through her sustained research, teaching, and publication record, Prof. Hajiboland continues to shape contemporary understanding of plant stress physiology and sustainable crop improvement under challenging environmental conditions.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Moradtalab, N., Hajiboland, R., Aliasgharzad, N., Hartmann, T. E., & Neumann, G. (2019). Silicon and the association with an arbuscular-mycorrhizal fungus (Rhizophagus clarus) mitigate the adverse effects of drought stress on strawberry. Agronomy, 9(1), 41. https://doi.org/10.3390/agronomy9010041

Rahmat, S., Hajiboland, R., & Sadeghzade, N. (2017). Selenium delays leaf senescence in oilseed rape plants. Photosynthetica, 55(1), 1–10. https://doi.org/10.1007/s11099-016-0643-6

Hajiboland, R., Bahrami-Rad, S., & Poschenrieder, C. (2017). Silicon modifies both a local response and a systemic response to mechanical stress in tobacco leaves. Biologia Plantarum, 61(1), 123–131. https://doi.org/10.1007/s10535-016-0633-3

Ebrahimi, N., Hartikainen, H., Simojoki, A., Hajiboland, R., & Seppänen, M. (2015). Dynamics of dry matter and selenium accumulation in oilseed rape (Brassica napus L.) in response to organic and inorganic selenium treatments. Agricultural and Food Science, 24(3), 219–230.*

Hajiboland, R., Sadeghzadeh, N., Ebrahimi, N., Sadeghzadeh, B., & Mohammadi, S. A. (2015). Influence of selenium in drought-stressed wheat plants under greenhouse and field conditions. Acta Agriculturae Slovenica, 105(2), 213–225. https://doi.org/10.14720/aas.2015.105.2.01

Hajiboland, R., Bastani, S., Bahrami-Rad, S., & Poschenrieder, C. (2015). Interactions between aluminum and boron in tea (Camellia sinensis) plants. Acta Physiologiae Plantarum, 37(12), 1–12. https://doi.org/10.1007/s11738-015-1803-1

Eric Howard | Research Excellence | Research Excellence Award

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Dr. Eric Howard | Research Excellence | Research Excellence Award

Dr. Eric Howard | Macquarie University | Australia

Dr. Eric Howard is an accomplished academic leader, researcher, and innovator with nearly three decades of combined experience across computational physics, astronomy, quantum computing, data science, and cybersecurity. He has made influential contributions through teaching, curriculum design, research supervision, and interdisciplinary program development across multiple higher-education sectors. His academic leadership includes directing programs and advancing pedagogical frameworks for undergraduate, postgraduate, and MBA-level studies. Dr. Howard’s research portfolio reflects significant advancements in emerging technologies. His completed and ongoing projects span quantum machine learning for fraud detection, hybrid quantum-classical neural networks for intrusion detection, quantum Bayesian inference models, variational simulations of molecular ground states, holographic beam shaping with AI optimization, and quantum graph neural networks for complex systems. He has published more than sixty peer-reviewed papers in respected SCI and Scopus-indexed journals, covering quantum information science, artificial intelligence, cosmology, cryptography, and computational physics. He also contributes to global scholarship as an editor for international journals in physics and theoretical mathematics, while serving as a peer reviewer for prominent scientific publishers and organizations. In addition, Dr. Howard maintains strong collaborative ties with national research institutes, quantum technology networks, and centers of excellence, advancing high-impact interdisciplinary projects. In industry, Dr. Howard has demonstrated entrepreneurial leadership as CEO of companies specializing in AI-powered cybersecurity and data-driven digital automation. His consultancy experience includes developing secure e-learning ecosystems, threat intelligence platforms, cloud security frameworks, and advanced analytics solutions for enterprise and academic clients. Dr. Howard’s key contributions include pioneering quantum-enhanced cybersecurity models, designing AI-driven threat intelligence frameworks, and leading competitive grant-funded projects in quantum sensing, VQE simulations, and digital security. His sustained commitment to innovation, mentorship, and research excellence underscores his significant impact on scientific, technological, and educational advancement.

Profile: Orcid | Google Scholar

Featured Publications

Howard, E. (2025). Data imputation with deep learning: AI techniques for handling missing or noisy data. Eksplorium. https://doi.org/10.52783/eksplorium.65

Howard, E. (2025). End-to-end visibility in global supply chains: Blockchain and AI integration [Dataset]. figshare. https://doi.org/10.6084/m9.figshare.28528676

Howard, E. (2025). Leveraging computer vision and data science for enhanced operational efficiency in smart enterprises. Tangence. https://doi.org/10.52783/tangence.6

Ramshankar, P., Howard, E., Srinivasan, V., Prabu, D., Dhanraj, J. A., Kumar, M. J., & Rajendiran, M. (2025). Nanoscale characterization and imaging techniques for material analysis. AIP Conference Proceedings. https://doi.org/10.1063/5.0277578

Howard, E. (2025). Optimization of heat transfer in mechanical systems using AI in neural networks. Tangence. https://doi.org/10.52783/tangence.3

Howard, E. (2025). Real-time image-based data processing and its applications in managerial decision-making and risk analysis. Eksplorium. https://doi.org/10.52783/eksplorium.181

Jean-louis Vigneresse | Research Excellence | Excellence in Research

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Prof. Jean-louis Vigneresse | Research Excellence | Excellence in Research

Prof. Jean-louis Vigneresse | université de lorraine | France

Jean-Louis Vigneresse is a distinguished French geophysicist known for his pioneering research on granite emplacement, crustal deformation, and thermal modeling. With decades of academic and international experience, he has contributed significantly to understanding Earth’s structural dynamics. He played key roles in major geoscientific programs like ECORS and Géofrance 3D and collaborated globally across Europe, the Americas, and Asia. As a professor and scientific leader, he has mentored numerous students and developed innovative geophysical tools. His research has been widely published and cited in top-tier journals. He also held administrative roles, promoting education and international cooperation. His career blends theoretical insight with practical application. Vigneresse’s legacy continues to shape modern geosciences.

Academic Profile 

Google Scholar | Orcid

Education

Jean-Louis Vigneresse holds a strong academic background in geophysics and earth sciences, having pursued advanced studies in engineering, structural geology, and geophysical modeling. He began his academic journey with training in geophysics at a premier French institute, focusing on magnetic anomalies and structural interpretations. His early research dealt with aeromagnetic and gravimetric analysis of volcanic and granitic terrains, reflecting a foundation in both applied and theoretical geophysics. His academic progression led him to conduct in-depth doctoral research on the modeling of granitic massifs and their deformation, integrating geophysical data with structural geological concepts. Further studies deepened his understanding of crustal processes, culminating in a high-level dissertation exploring the emplacement of granitic plutons under regional tectonic constraints.

Experience

Vigneresse has extensive experience in academia, research, and international collaboration. He has held teaching and research positions in several French universities, culminating in a senior academic post at a leading geological school. In addition to his teaching and research duties, he took on multiple administrative roles, including academic program development, student supervision, and coordination of international partnerships. He contributed to the modernization of geoscience curricula, particularly in petroleum geology and structural analysis. He has also been instrumental in developing applied geophysical tools, modeling software, and training programs that bridge academia and industry. His global engagement includes cooperative projects with universities and research centers across Europe, the Americas, Asia, and North Africa.

Research Interests

His research spans a broad range of topics in geophysics, structural geology, petrology, and crustal dynamics. His work has addressed granite emplacement mechanisms, partial melting, melt migration, deformation modeling, and the thermal evolution of the Earth’s crust. He has a particular interest in the links between tectonics, magmatism, and ore deposit formation. He developed physical and numerical models to simulate crustal processes and contributed to major geoscientific initiatives. His studies are well recognized for providing insights into the thermomechanical behavior of the crust and the geodynamic settings of granite-related phenomena.

Awards and Recognition

Jean-Louis Vigneresse is internationally recognized for his scholarly contributions, scientific collaborations, and educational leadership. He has published numerous research articles in prestigious international journals and has contributed as a reviewer and advisor to several scientific publications. His work has had significant influence in both academic and applied geoscience fields. He has been invited as a guest professor and scientific advisor in multiple countries and has played a key role in European scientific programs. His distinction lies in his ability to combine theoretical research with practical applications and international cooperation.

Publications


Granite magma formation, transport and emplacement in the Earth’s crust.

Author: Petford, N., Cruden, A. R., McCaffrey, K. J. W., & Vigneresse, J.-L.
Journal; Nature,(2000)

Nb-Ta fractionation in peraluminous granites: A marker of the magmatic-hydrothermal transition.

Author: Ballouard, C., Poujol, M., Boulvais, P., Branquet, Y., Tartèse, R., & Vigneresse, J.-L.
Journal; Geology, (2016)

Rheological transitions during partial melting and crystallization with application to felsic magma segregation and transfer.

Author: Vigneresse, J.-L., Barbey, P., & Cuney, M.
Journal: Petrology,  (1996)

Transpressional kinematics and magmatic arcs.

Author: Blanquat, M. D. S., Tikoff, B., Teyssier, C., & Vigneresse, J.-L.
Journal: Geological Society, London, Special Publications, (1998)

The Mortagne granite pluton (France) emplaced by pull-apart along a shear zone: Structural and gravimetric arguments and regional implication.

Author: Guineberteau, B., Bouchez, J.-L., & Vigneresse, J.-L.
Journal: Geological Society of America Bulletin, (1987)

Conclusion

The Research Excellence Award stands as a prestigious recognition of intellectual brilliance, innovation, and impactful contribution across scientific, academic, and interdisciplinary domains. It not only honors individual achievement but also promotes a culture of inquiry, collaboration, and societal relevance. By celebrating researchers who push boundaries and solve real-world problems, the award contributes to the global advancement of knowledge and inspires the next generation of scholars and innovators. This is more than an accolade — it is a platform for leadership, visibility, and lasting influence in the world of research.