M. Mottakin | Research Excellence | Research Excellence Award

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Assist. Prof. Dr. M. Mottakin | Research Excellence | Research Excellence Award

Assist. Prof. Dr M. Mottakin | Gopalganj Science and Technology University, Bangladesh | Bangladesh

Dr. Mottakin is an accomplished Assistant Professor in the Department of Applied Chemistry and Chemical Engineering at Gopalganj Science and Technology University, Bangladesh, with a strong focus on advancing research and education in chemical sciences. His career is driven by a commitment to innovation and knowledge creation, aiming to develop practical solutions that address both national and global challenges. He holds a PhD in Solar Energy from the National University of Malaysia, building on a solid academic foundation with a Master’s and Bachelor’s degree in Applied Chemistry and Chemical Technology from the University of Rajshahi. Throughout his academic journey, he has consistently excelled, earning top positions in his department and demonstrating exceptional scholarly performance. Dr. Mottakin has contributed extensively to high-impact research in areas including solar energy, electrocatalysis, energy storage, and environmentally sustainable chemical processes. He has authored numerous publications in internationally recognized journals, covering topics such as perovskite solar cells, water splitting electrocatalysts, and eco-friendly energy materials. His research combines experimental and numerical approaches, emphasizing both innovation and practical applicability. In addition to his research, Dr. Mottakin actively participates in national and international conferences, sharing his expertise and fostering collaborations. He has received multiple awards and scholarships in recognition of his academic excellence and research contributions. He is fluent in both English and Bangla and demonstrates a strong ability to communicate complex scientific concepts effectively. Dr. Mottakin’s professional philosophy centers on integrating teaching, research, and community engagement, mentoring the next generation of scientists while contributing to sustainable technological advancements. With a proven track record in research, teaching, and international collaboration, Dr. Mottakin continues to drive innovation in applied chemistry and chemical engineering, aiming to create impactful solutions that benefit society and the scientific community.

Profile: Orcid | Scopus

Featured Publications

Patwary, M. A., Shafin, A. A., Alam, M. M., Singh Durjoy, R. K., Ludin, N. A., Su’ait, M. S., Akhtaruzzaman, M., & Mottakin, M. (2025). Optoelectronic properties and device simulation of ZnS polymorphs as buffer layers for CZTSSe solar cells. RSC Advances. https://doi.org/10.1039/D5RA07195J

Sultana, S., Sonia, Z. A., Mahmud, M., Mottakin, M., Haider, J. B., Ahmed, S., & Hossen, M. M. (2024). An investigation of cellulose, hemicellulose and lignin co-extraction from water hyacinth. Advanced Journal of Chemistry, Section A. https://doi.org/10.48309/ajca.2024.412642.1402

Mottakin, M., Su’Ait, M. S., Chelvanathan, P., Islam, M. A., Shahiduzzaman, M., Ibrahim, M. A., Muhammad, G., & Akhtaruzzaman, M. (2024). Correlation between defect properties and the performance of eco-friendly CsSnI₃-based perovskite solar cells. Semiconductor Science and Technology. https://doi.org/10.1088/1361-6641/ad208b

Mottakin, M., Su’ait, M. S., Selvanathan, V., Chelvanathan, P., Ibrahim, M. A., & Akhtaruzzaman, M. (2024). Effect of sulfidation on ethaline-assisted electrodeposited iron sulfide-based electrocatalyst for efficient saline water splitting. International Journal of Hydrogen Energy. https://doi.org/10.1016/j.ijhydene.2024.06.181

Mottakin, M., Selvanathan, V., Su’ait, M. S., Razali, S. A., Islam, M. A., Ibrahim, M. A., Muhammad, G., & Akhtaruzzaman, M. (2024). Enhancing pseudocapacitive energy storage system performance with electrodeposited CuSₓ and CoSₓ biphasic transitional metal sulfide (TMS) based nanostructured electrode on nickel foam. Journal of Physics and Chemistry of Solids, 186, 111795. https://doi.org/10.1016/j.jpcs.2023.111795

Mottakin, M., Su’ait, M. S., Chelvanathan, P., Ibrahim, M. A., Ludin, N. A., Abdullah, H., Almohamadi, H., & Akhtaruzzaman, M. (2024). Facile electrodeposited sandwich-like CuSₓ/MnSₓ electrocatalyst for efficient hydrogen evolution in seawater splitting. Journal of Solid State Chemistry, 339, 124913. https://doi.org/10.1016/j.jssc.2024.124913

Gabriele Sirtori | Research Excellence | Research Excellence Award

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Dr. Gabriele Sirtori | Research Excellence | Research Excellence Award

Dr. Gabriele Sirtori | ISAE Supaero | France

Gabriele Sirtori is an aerospace engineer and researcher specializing in sustainable aviation, hydrogen-powered aircraft design, and environmentally optimized flight operations. With advanced academic training culminating in a research doctorate in aerospace engineering from Politecnico di Milano, his work focuses on the integration of emerging propulsion technologies, environmental impact assessment, and the future evolution of air transport systems. His doctoral research explored hydrogen-powered aviation with an emphasis on aircraft design innovation and operational scenario development, earning top academic recognition. He also holds a master’s degree in aeronautical engineering with a thesis dedicated to evaluating the environmental benefits of hybrid propulsion for regional aircraft. International academic exposure includes studies at ENAC in Toulouse and an early exchange program in the United States, strengthening his multicultural competence and broadening his understanding of global aviation ecosystems. Gabriele currently serves as a postdoctoral researcher at ISAE Supaero in Toulouse, contributing to studies on air traffic management inefficiencies and assessing mitigation strategies to reduce climate impacts through optimized flight operations. His experience also includes leadership and community engagement through active roles in Rotaract, where he served as vice president and contributed to social and service-oriented initiatives. He has authored numerous scientific publications spanning hydrogen propulsion, hybrid-electric aircraft concepts, environmental benefits of advanced technologies, and infrastructure requirements for future sustainable fleets. His work appears in peer-reviewed journals, major international conferences, and multidisciplinary aerospace research platforms. Gabriele’s technical competencies include advanced programming in MATLAB and Python, strong proficiency in word processing and scientific documentation tools, and solid analytical abilities in data handling and modeling. He is fluent in English and French, with additional proficiency in Spanish, enabling effective collaboration in international research environments. Driven by a commitment to sustainable aviation, he aims to contribute to the transition toward cleaner, more efficient air transport through rigorous research, innovative design methodologies, and future-oriented technological analysis.

Profile: Google Scholar

Featured Publications

Aigner, B., Garcia Garriga, A., Sirtori, G., Riboldi, C. E. D., Trainelli, L., Mariani, C., … (2022). Overview and preliminary results of the scalability investigation of hybrid electric concepts for next-generation aircraft (SIENA) project. In 12th EASN Conference.

Trainelli, L., Riboldi, C. E. D., & Sirtori, G. (2024). Methodologies for the preliminary sizing of hydrogen-powered aircraft and supporting airport infrastructures. ICAS Proceedings, 1–12.

Aigner, B., Wehrle, E., Struiwig, W., Sirtori, G., Riboldi, C., & Trainelli, L. (2023). Consideration of technology scalability in the design of electric propulsion system architectures. In Aerospace Europe Conference 2023—Joint 10th EUCASS–9th CEAS Conference (pp. 1–11).

Sirtori, G., Aigner, B., Wehrle, E., Riboldi, C. E. D., & Trainelli, L. (2025). Innovative aircraft propulsive configurations: Technology evaluation and operations in the SIENA project. Aerospace, 12(3), 240.

Sirtori, G., Trainelli, L., & Lahmam, Z. (2024). Hydrogen tankering: Tools for economic and environmental impact scenario studies. ICAS Proceedings, 1–13.

Sirtori, G., & Trainelli, L. (2025). Transient in operations: From jet-fuel to hydrogen-powered aircraft. In Towards Sustainable Aviation Summit (TSAS 2025) (pp. 1–8).

Sirtori, G., Trainelli, L., & Riboldi, C. E. D. (2024). Prediction of environmental benefits introducing hybrid-electric propulsion on regional aircraft. Journal of Physics: Conference Series, 2716(1), 012015.

Jyoti Srivastava | Research Excellence | Best Researcher Award

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Dr. Jyoti Srivastava | Research Excellence | Best Researcher Award

Dr. Jyoti Srivastava | Moffitt Cancer Center | United States

Dr. Jyoti Srivastava, Senior Research Scientist in the Department of Tumor Microenvironment and Metastasis at Moffitt Cancer Center, is an accomplished molecular biologist with over 18 years of pioneering experience spanning cancer biology, immuno-oncology, and therapeutic discovery. Her multidisciplinary research integrates molecular genetics, pharmacology, redox biology, and genomics to uncover mechanisms driving tumor progression, metastasis, and drug resistance. At Moffitt, Dr. Srivastava has made groundbreaking discoveries in melanoma, elucidating how redox and nitrosylation signaling pathways modulate immune evasion and therapeutic resistance in NRAS-driven cancers. Her work has identified actionable targets and led to the development of innovative RNAi-, PROTAC-, and small-molecule–based therapeutics that have advanced toward preclinical and clinical evaluation. Previously at Arrowhead Pharmaceuticals and Yale University, she spearheaded translational research programs that delivered clinical candidates for lung diseases and cancer, while uncovering novel oncogenic pathways such as AEG-1/MTDH in hepatocellular carcinoma and non-alcoholic steatohepatitis (NASH). Dr. Srivastava’s contributions—reflected in over 30 peer-reviewed publications, invited talks at major international conferences, and successful therapeutic innovations—underscore her leadership in bridging fundamental discoveries with clinical application, advancing next-generation strategies to combat cancer and chronic diseases.

Profiles: Google Scholar

Featured Publications 

Yoo, B. K., Santhekadur, P. K., Gredler, R., Chen, D., Emdad, L., Bhutia, S., … & Fisher, P. B. (2011). Increased RNA-induced silencing complex (RISC) activity contributes to hepatocellular carcinoma. Hepatology, 53(5), 1538–1548. https://doi.org/10.1002/hep.24221

Santhekadur, P. K., Das, S. K., Gredler, R., Chen, D., Srivastava, J., Robertson, C., … & Fisher, P. B. (2012). Multifunction protein staphylococcal nuclease domain containing 1 (SND1) promotes tumor angiogenesis in human hepatocellular carcinoma through a novel pathway involving NF-κB and miR-221. Journal of Biological Chemistry, 287(17), 13952–13958. https://doi.org/10.1074/jbc.M111.323899

Sarkar, D., & Fisher, P. B. (2013). AEG-1/MTDH/Lyric: Clinical significance. Advances in Cancer Research, 120, 39–74. https://doi.org/10.1016/B978-0-12-401676-7.00002-0

Srivastava, J., Siddiq, A., Emdad, L., Santhekadur, P. K., Chen, D., Gredler, R., … & Fisher, P. B. (2012). Astrocyte elevated gene-1 promotes hepatocarcinogenesis: Novel insights from a mouse model. Hepatology, 56(5), 1782–1791. https://doi.org/10.1002/hep.25841

Santhekadur, P. K., Akiel, M., Emdad, L., Gredler, R., Srivastava, J., … & Fisher, P. B. (2014). Staphylococcal nuclease domain containing-1 (SND1) promotes migration and invasion via angiotensin II type 1 receptor (AT1R) and TGF-β signaling. FEBS Open Bio, 4, 353–361. https://doi.org/10.1016/j.fob.2014.03.001

Mr. Ehsan Esmaeeli | Research Excellence | Best Researcher Award | 2537

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Mr. Ehsan Esmaeeli | Research Excellence | Best Researcher Award

Mr. Ehsan Esmaeeli | Sharif University of Technology | Iran

Ehsan Esmaeeli, a dedicated researcher in Maintenance and Reliability Engineering at Sharif University of Technology, exemplifies excellence in research, innovation, and professional expertise. His scholarly contributions span maintenance optimization, reliability modeling, and intelligent asset management systems, integrating AI and hybrid optimization techniques. With multiple publications in high-impact international journals such as IEEE Access and Journal of Quality in Maintenance Engineering, his work has advanced the understanding of data-driven maintenance strategies and sustainable industrial operations. A Certified Maintenance and Reliability Professional (CMRP), Asset Management Assessor (CAMA), and Reliability Leader (CRL), Ehsan bridges academic research with industrial practice, fostering innovation that enhances system reliability and operational efficiency.

Profile: ScopusOrcid

Featured Publications

Esmaeeli, E., Collins, A. J., Varmazyar, M., & Khorshidnia, M. (2025). Agent-based modeling applications in maintenance systems: A systematic review. Journal of Quality in Maintenance Engineering, 31(3), 325–349. https://doi.org/10.1108/JQME-03-2024-0028

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.