Tanmoy Chowdhury | Astrophysics | Best Researcher Award

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Mr. Tanmoy Chowdhury | Astrophysics | Best Researcher Award 

Mr. Tanmoy chowdhury | Jadavpur University | India

Mr. Tanmoy Chowdhury is a research scholar in Astrophysics and Cosmology at Jadavpur University, working under the guidance of Prof. Farook Rahaman and Dr. Ksh. Newton Singh. He holds an M.Sc. in Applied Mathematics from West Bengal State University and has qualified both the CSIR-UGC NET (2021) and GATE (2022) examinations. His academic journey reflects a strong foundation in mathematics and physics. Mr. Chowdhury has two years of part-time teaching experience in a non-government school and has completed a B.Ed. training program. He has also taught undergraduate courses at Jadavpur University for two semesters.

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Early Academic Pursuits

Mr. Tanmoy Chowdhury began his academic journey with a strong foundation in mathematics and physics. He completed his secondary education at Bongaon High School under the WBBSU board in 2011 with an impressive and pursued his higher secondary studies (12th) under WBCHSE in 2013. Demonstrating a consistent academic record, he earned his B.Sc. (Honours) degree in Mathematics from Dinabandhu Maha Vidyalaya, affiliated with West Bengal State University (W.B.S.U), in 2016. He further pursued an M.Sc. in Applied Mathematics from W.B.S.U, completing it in 2018 with His academic foundation laid the groundwork for his current research pursuits in astrophysics and cosmology, especially in the area of Compact Objects in Modified Gravity.

Professional Endeavors

Mr. Chowdhury is presently a PhD research scholar at Jadavpur University, one of India’s premier institutions, under the guidance of Prof. Farook Rahaman and co-guidance of Dr. Ksh. Newton Singh. His work focuses on astrophysics and cosmology with a special interest in Compact Objects in Modified Gravity theories. In addition to his research, he has contributed significantly to teaching having completed two semesters as a teaching assistant at Jadavpur University and teaching part-time for over two years at a non-government school. He has also completed a B.Ed. training program, which strengthens his capabilities as an educator.

Contributions and Research Focus

Mr. Chowdhury’s research concentrates on theoretical and computational models in astrophysics, particularly on Compact Objects in Modified Gravity frameworks. His work contributes to understanding how deviations from General Relativity affect the structure and evolution of dense astrophysical entities like neutron stars, black holes, and exotic compact stars. By integrating concepts of applied mathematics with astrophysical models, he explores new solutions that may reconcile observational anomalies and contribute to modern cosmological theories.

Impact and Influence

Although early in his research career, Mr. Tanmoy Chowdhury has already made meaningful contributions to the field of gravitational physics and cosmology. Passing the prestigious CSIR UGC NET (June 2021) and GATE (2022) examinations, he has proven his academic merit and dedication to research. His teaching engagements, both at the university level and in secondary education, reflect his commitment to knowledge dissemination. As he progresses, his work on Compact Objects in Modified Gravity is expected to contribute valuable insights to both academic circles and scientific communities focused on gravitational studies.

Academic Cites

While still in the early stages of his doctoral work, Mr. Chowdhury’s research potential is strong. With support from notable experts like Prof. Farook Rahaman, a recognized authority in theoretical astrophysics, and Dr. Ksh. Newton Singh, his research is well-positioned for publication in peer-reviewed journals. His work on Compact Objects in Modified Gravity is likely to receive significant academic attention, especially in studies involving stellar structures and gravitational collapse in extended gravity models.

Legacy and Future Contributions

Mr. Chowdhury's career is poised for impactful contributions in theoretical astrophysics. As a dedicated researcher and educator, he aims to bridge mathematical theory with physical cosmology. With a clear focus on Compact Objects in Modified Gravity, he is expected to publish extensively, contribute to future academic symposia, and inspire upcoming scholars in the field. His interdisciplinary approach combining mathematics, astrophysics, and pedagogy ensures a lasting legacy in both research and education.

Compact Objects in Modified Gravity

Mr. Tanmoy Chowdhury’s doctoral work centers around Compact Objects in Modified Gravity, which involves exploring gravitational models beyond Einstein’s General Relativity. Through analytical and numerical methods, he investigates how Compact Objects in Modified Gravity influence observable properties of dense stars and black holes. His theoretical contributions in Compact Objects in Modified Gravity promise to enhance our understanding of dark matter, dark energy, and the evolution of cosmic structures.

Notable Publications

Possible existence of stable compact stars in k (R,J)  gravity
Authors: G.R.P. Teruel, K.N. Singh, F. Rahaman, T. Chowdhury
Journal: International Journal of Modern Physics A
Year: 2022
Citations: 8

Conservative wormholes in generalized κ (R,T)-function
Authors: K.N. Singh, G.R.P. Teruel, S.K. Maurya, T. Chowdhury, F. Rahaman
Journal: Journal of High Energy Astrophysics
Year: 2024
Citations: 5

Testing of κ (R,T)-gravity through gravastar configurations
Authors: G.R.P. Teruel, K.N. Singh, T. Chowdhury, F. Rahaman, M. Mondal
Journal: Physics of the Dark Universe
Year: 2024
Citations: 5

Strong lensing in the exponential wormhole spacetimes
Authors: T. Manna, F. Rahaman, T. Chowdhury
Journal: New Astronomy
Year: 2023
Citations: 5

Cosmological model with Gong-Zong Parametrization in f(R. Lm) gravity
Authors: R. Garg, T. Chowdhury, G.P. Singh, F. Rahaman
Journal: arXiv preprint
Year: 2025
Citations: 1

Omar Boualam – Interaction of Particles with Catalytic Materials – Best Faculty Award 

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Mr. Omar Boualam | Interaction of Particles with Catalytic Materials | Best Faculty Award 

Mr. Omar Boualam | Sidi Mohammed Ben Abdellah University. Higher School of Technology of Fez. Morocco | Morocco

Mr. Omar Boualam is a doctoral researcher in catalytic chemistry at Sidi Mohamed Ben Abdellah University, Morocco, specializing in the catalytic oxidation of aromatic pollutants using modified Moroccan clay. With a strong academic background in applied and industrial chemistry, process engineering, and environmental sciences, he has extensive laboratory experience, including roles at LOARC in Casablanca and the Lafarge Cement Plant in Tangier. His technical expertise spans advanced oxidation processes, nanocomposite synthesis, and a wide range of analytical techniques such as HPLC, GC, and spectroscopy. Mr. Boualam has authored scientific articles, holds a patent, and actively contributes to research, teaching, and lab coordination.

Author Profiles

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Early Academic Pursuits

Mr. Omar Boualam has demonstrated a consistent commitment to excellence from the earliest stages of his academic journey. Beginning with a Bachelor's degree in Mathematics A with honors from Youssef Ben Tachefine High School in Fez, he then pursued technical and scientific training with a University Diploma of Technology (DUT) in Process Engineering, graduating with merit from the Higher School of Technology in Fez. He advanced further with a Professional Bachelor's Degree in Industrial Chemistry, followed by a Master’s Degree in Applied Chemistry, Environment and Sustainable Development with honors from the Faculty of Sciences, Kenitra. Currently, he is pursuing a PhD in Catalytic Chemistry at Sidi Mohamed Ben Abdellah University, focusing on catalytic oxidation of aromatic pollutants using modified Moroccan clay—laying a solid foundation in both theoretical and applied aspects of chemistry and materials science.

Professional Endeavors

Mr. Boualam’s professional journey blends academic research with industrial experience. Since 2018, he has served as a Laboratory Technician at the Higher School of Technology (EST), Fez, where he manages lab equipment, supports faculty and students, and contributes to ongoing research. Prior to this, he worked at LOARC (Official Laboratory for Chemical Analysis and Research) in Casablanca (2013–2018), conducting industrial chemical analyses and technical reporting. He also held a technician position at Lafarge Cement Plant, Tangier (2012–2013), where he played a critical role in quality control and production process optimization. Across all roles, he has maintained a strong emphasis on precision, research support, and innovation in chemistry.

Contributions and Research Focus

Mr. Boualam’s current doctoral research emphasizes advanced oxidation techniques and the development of nanocomposite catalysts. His primary focus is the Interaction of Particles with Catalytic Materials, particularly in the degradation of aromatic pollutants. He has published articles on adsorption and oxidation processes and is recognized for his inventive work, including holding a patent. His expertise extends across various analytical techniques (HPLC, GC, IR, UV-Vis, XRF), unit operations, and software tools used in catalytic material research and environmental chemistry.

Impact and Influence

Through his teaching support, workshop organization, and lab management, Mr. Boualam has had a meaningful impact on the academic and research community at EST and beyond. His work in Interaction of Particles with Catalytic Materials is contributing to sustainable environmental practices and influencing the development of next-generation materials for pollution control. His practical experience in both industrial and academic settings gives him a unique position to bridge the gap between applied chemistry and environmental technology.

Academic Cites

Mr. Boualam’s research has begun gaining traction in the academic community, especially in the field of Interaction of Particles with Catalytic Materials. His scholarly publications and patent in this area serve as references for emerging researchers focused on catalytic oxidation, adsorption, and material modification. As his doctoral research progresses and more results are disseminated, his academic visibility and citation count are expected to increase substantially.

Legacy and Future Contributions

As a rising researcher, Mr. Omar Boualam is set to become a prominent contributor to the field of environmental catalysis and material science. His future contributions are likely to expand on his current innovations in the interaction of particles with catalytic materials, with applications in wastewater treatment, air purification, and sustainable industrial chemistry. His strong background in process engineering and analytical methods positions him well to lead interdisciplinary projects that address real-world environmental challenges.

Interaction of Particles with Catalytic Materials

Mr. Omar Boualam’s ongoing doctoral research deeply explores the interaction of particles with catalytic materials, particularly in the catalytic oxidation of aromatic pollutants. His industrial and academic expertise enables a practical understanding of interaction of particles with catalytic materials for environmental remediation. Future innovations by Mr. Boualam in interaction of particles with catalytic materials will likely enhance global efforts in sustainable chemistry and pollutant degradation technologies.

 Notable Publications

Optimization of CWPO for the Crystal violet and Methyl orange dyes degradation in the presence of copper-impregnated Moroccan clay catalysts
Authors: S. El-Hafed, R. Bouslamti, F. Zerrouq, A. Kherbeche, O. Boualam, L. Nahali, et al.
Journal: Moroccan Journal of Chemistry
Year: 2024
Citations: 11

Catalytic wet oxidation degradation of malachite green with Cu-coated sediment as catalyst: parameter optimization using response surface methodology
Authors: L. Mardi, K. Tanji, A. El Gaidoumi, Y. Fahoul, I. El Mrabet, A. Arrahli, C. Chadli, et al.
Journal: Euro-Mediterranean Journal for Environmental Integration
Year: 2024
Citations: 7

Resourceful exploitation of sedimentary clay: designing a dual‐chambered borosilicate glass reactor system for the efficient treatment of malachite green and phenol through catalytic oxidation
Authors: O. Boualam, S. El Alami, H. Ibaghlin, C. Chadli, K. Tanji, A. El Gaidoumi, et al.
Journal: Water Environment Research
Year: 2024
Citations: 6

Experimental control tests of Pistia stratiotes L., an invasive aquatic plant of lentic habitats (Fez, Morocco)
Authors: C. Chadli, L. Mardi, O. Boualam, R. Bouslamti, A. Ennabili
Journal: Scientific African
Year: 2023
Citations: 6

Optimization study of Iron-Pillared Illite catalyst extracted from Moroccan sedimentary clay rock: Maximizing phenol degradation via Fenton-Reaction for effective water treatment
Authors: O. Boualam, C. Chadli, H. Ibaghlin, S. Elalami, R. Belaabed, H. Elknidri, et al.
Journal: Moroccan Journal of Chemistry
Year: 2025
Citations: 5

Recent advances in the heavy metals removal using ammonium molybdophosphate composites: A review
Authors: Y. Miyah, N. El Messaoudi, M. Benjelloun, O. Boualam, B. Aasli, B. Graba, et al.
Journal: Advances in Colloid and Interface Science
Year: 2025
Citations: 4

Anil Ozdemir | Construction Materials | Young Researcher Award 

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Assist. Prof. Dr. Anil Ozdemir | Construction Materials | Young Researcher Award 

Assist. Prof. Dr. Anil Ozdemir | Gazi University | Turkey

Assist. Prof. Dr. Anil Özdemir is a civil engineering academic specializing in the repair and strengthening of reinforced concrete (RC) structural elements. He earned his Ph.D. from Gazi University, focusing on the repair potential of damaged RC shear walls with openings. His research includes experimental studies on RC columns, slabs, and beams using advanced strengthening techniques such as jacketing, Textile Reinforced Mortar (TRM), and Carbon Fiber Reinforced Polymer (CFRP). Currently serving at Gazi University, he has contributed to multiple TÜBİTAK and institutional research projects and has been recognized with awards from Texas Tech University and The British University of Dubai.

Author Profiles

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Early Academic Pursuits

Assist. Prof. Dr. Anil Özdemir began his academic journey in Civil Engineering at Kocaeli University, graduating in 2012. His academic excellence and interest in structural behavior led him to pursue postgraduate studies at Ege University (2013–2015), where he completed a thesis on Strengthening of Damaged RC Columns by Jacketing Method using acoustic emission techniques. He further advanced his expertise by earning a PhD in Civil Engineering from Gazi University (2016–2020). His doctoral thesis titled Experimental Investigation on The Repair Potential of Damaged RC Shear Walls With Openings demonstrated his early dedication to structural rehabilitation and Construction Materials performance under load.

Professional Endeavors

Dr. Özdemir has been actively contributing to academia and research since 2014 as a Research Assistant at Gazi University. His work has revolved around experimental structural analysis, retrofitting techniques, and strengthening of reinforced concrete (RC) elements. Through his involvement in TUBITAK and Gazi University-funded projects, he has contributed to advancements in strengthening RC slabs and walls using innovative materials such as Construction Materials including Textile Reinforced Mortar (TRM) and Carbon Fiber Reinforced Polymer (CFRP).

Contributions and Research Focus

His research has primarily focused on the structural integrity and rehabilitation of damaged RC elements. Dr. Özdemir has explored the use of modern Construction Materials and techniques in strengthening applications. Key studies include the behavior of RC shear walls with varying opening configurations and damage levels, as well as the use of BFRP-CFRP strips and textile-based materials for enhanced structural performance. He has also investigated the concrete-steel adhesion interface under tensile stress conditions, which plays a critical role in the durability of reinforced systems.

Impact and Influence

Dr. Anil Özdemir’s work has had a significant influence on the development of retrofitting strategies for aging and damaged infrastructure. His applied research helps bridge the gap between experimental results and real-world applications in civil engineering. His contributions to the understanding of Construction Materials have provided critical insights for structural engineers and researchers aiming to improve the resilience of structures. His recognition includes international awards such as Certificate and Plaque Awards from Texas Tech University (2019) and The British University of Dubai (2017), marking his growing influence beyond national boundaries.

Academic Cites

His research outputs, particularly in experimental mechanics and materials behavior, have been referenced by peers working in the field of structural rehabilitation. Although still in the early stages of his academic career, Dr. Özdemir’s works are gaining citations in journals and conferences related to civil engineering and Construction Materials technology, signaling the increasing academic reach of his experimental findings.

Legacy and Future Contributions

Looking ahead, Dr. Özdemir is poised to become a leading authority in the area of structural rehabilitation and materials engineering. His continued involvement in research projects backed by TUBITAK and Gazi University shows his commitment to developing and validating new methods to enhance structural safety. His future contributions will likely focus on integrating sustainable, smart Construction Materials into repair technologies, contributing to safer, longer-lasting infrastructure systems. His legacy will be rooted in experimental rigor and practical innovation, providing valuable advancements for both academia and industry.

Construction Materials

Assist. Prof. Dr. Anil Özdemir’s career centers around the study and application of Construction Materials in the repair and strengthening of reinforced concrete structures. His projects showcase extensive use of advanced Construction Materials such as CFRP, TRM, and BFRP in structural rehabilitation. Through his commitment to innovative experimentation, Dr. Özdemir continues to shape the future of Construction Materials engineering in civil infrastructure.

 Notable Publications

Title: Investigation of strengthened low slenderness RC column by using textile reinforced mortar strip under axial load
Authors: Ö. Mercimek, R. Ghoroubi, A. Özdemir, Ö. Anil, Y. Erbaş
Journal: Engineering Structures
Year: 2022
Citations: 34

Title: Investigation of punching behaviour of steel and polypropylene fibre reinforced concrete slabs under normal load
Authors: F. Sermet, A. Özdemir
Journal: Procedia Engineering
Year: 2016
Citations: 28

Title: Experimental investigation of damaged square short RC columns with low slenderness retrofitted by CFRP strips under axial load
Authors: R. Ghoroubi, Ö. Mercimek, A. Özdemir, Ö. Anil
Journal: Structures
Year: 2020
Citations: 24

Title: Strength, ductility, and energy dissipation capacity of RC column strengthened with CFRP strip under axial load
Authors: Ö. Mercimek, R. Ghoroubi, Ö. Anil, C. Çakmak, A. Özdemir, Y. Kopraman
Journal: Mechanics Based Design of Structures and Machines
Year: 2023
Citations: 17

Title: Hysteretic behavior of retrofitted RC shear wall with different damage levels by using steel strips
Authors: A. Özdemir, Y. Kopraman, Ö. Anıl
Journal: Journal of Building Engineering
Year: 2021
Citations: 16

Title: Punching behaviour of two-way RC slabs having different multiple opening locations and sizes strengthened with TRM
Authors: Ö. Mercimek, R. Ghoroubi, A. Özdemir, Ö. Anıl, M. Baran
Journal: Structures
Year: 2022
Citations: 12

Title: Damage to monumental masonry buildings in Hatay and Osmaniye following the 2023 Turkey earthquake sequence: The role of wall geometry, construction quality, and material properties
Authors: B. Bozyiğit, A. Özdemir, K. Dönmez, K.D. Dalgıç, E. Durgut, C. Yeşilyurt, et al.
Journal: Earthquake Spectra
Year: 2024
Citations: 10

Farajollah Tahernezhad-Javazm | Experimental Physics | Best Researcher Award 

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Dr. Farajollah Tahernezhad-Javazm | Experimental Physics | Best Researcher Award 

Dr. Farajollah Tahernezhad-Javazm | University of York | United Kingdom

Dr. Farajollah Tahernezhad-Javazm is a researcher in computer science and mechatronics with expertise in reinforcement learning, brain-machine interfaces, and evolutionary algorithms. He earned his Ph.D. from Ulster University, UK, focusing on transforming multiobjective evolutionary algorithms using hybrid structures and reinforcement learning. He currently serves as a Research Associate at the University of York, contributing to bio-inspired engineering design through Graph Neural Networks and Cartesian Genetic Programming. His previous roles include data analytics research at the University of Lincoln, a visiting Ph.D. position at Auburn University, and neuroimaging research at Ulster’s MEG lab. His interdisciplinary work spans AI, optimization, and neural signal processing.

Author Profiles

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Early Academic Pursuits

Dr. Farajollah Tahernezhad-Javazm’s academic foundation is rooted in electronics and mechatronics engineering, disciplines that enabled him to engage early with complex systems and intelligent interfaces. He earned his BSc in Electronics Engineering from Yazd University in 2013, where he designed a programmable Building Management System (BMS). He progressed to an MSc in Mechatronics Engineering from the University of Tabriz in 2016, focusing on real-time brain-machine interface (BMI) systems using combinatorial classification methods. His academic trajectory culminated with a PhD in Computer Science from Ulster University, Northern Ireland, in May 2024. His doctoral thesis, “Reinforcement Learning and Hybrid Structures: Transforming Multiobjective Evolutionary Algorithms,” under the supervision of Prof. Damien Coyle and Dr. Debbie Rankin, integrated reinforcement learning with evolutionary computation, setting a strong theoretical and practical foundation for his future contributions to Experimental Physics and intelligent systems.

Professional Endeavors

Dr. Tahernezhad-Javazm has held numerous interdisciplinary roles across academia and research institutions. As a Research Associate at the University of York since November 2024, he contributes to the Re-Imagining Engineering Design (RIED) project, advancing bio-inspired methodologies using Graph Neural Networks (GNN), Cartesian Genetic Programming (CGP), and Reinforcement Learning (RL). Previously, at the University of Lincoln (2023–2024), he applied machine learning for data analytics in the food supply chain sector. His international research engagement includes time as a Visiting PhD Researcher at Auburn University in the U.S., working on multiobjective algorithms and reinforcement learning, and as a Research Assistant at Ulster University’s Magnetoencephalography (MEG) Laboratory, where he played a crucial role in managing high-sensitivity brain imaging systems  contributing directly to Experimental Physics through real-time neuroimaging calibration, testing, and maintenance.

Contributions and Research Focus

Dr. Tahernezhad-Javazm’s research blends machine learning, neuroengineering, reinforcement learning, and optimization. His primary focus lies in developing hybrid intelligence systems to solve real-world challenges in Experimental Physics and computational design. His contributions span the development of AI-powered BMIs, reinforcement learning-enhanced evolutionary algorithms, and advanced sensor systems used in neuroimaging and engineering design. His work integrates data-driven modeling with bio-inspired computation, making significant inroads in signal decoding, system optimization, and neural data interpretation.

Impact and Influence

Through interdisciplinary collaborations in the UK, Iran, and the U.S., Dr. Tahernezhad-Javazm has advanced impactful methodologies in both engineering and Experimental Physics. His influence is evident in his work with high-profile teams like Prof. Andy Tyrrell’s group at the University of York and Prof. Alice E. Smith’s group at Auburn University. He bridges computational sciences with experimental applications  particularly in bioengineering, neuroimaging, and smart system design. His MEG research also supports cognitive neuroscience by ensuring accurate and calibrated data collection, which is critical to the experimental integrity of advanced physics-driven medical systems.

Academic Cites

Dr. Tahernezhad-Javazm’s academic contributions have been published and cited across several interdisciplinary fields, including intelligent systems, optimization algorithms, and computational neuroscience. His work has been featured in machine learning conferences and neuroscience venues, particularly those focusing on Experimental Physics and real-time brain-machine interface systems. His publications reflect an evolving and impactful research profile with applications in healthcare, manufacturing, and engineering design.

Legacy and Future Contributions

Dr. Farajollah Tahernezhad-Javazm is on a promising trajectory to become a leading figure in AI-driven research with applications in Experimental Physics. With his experience across disciplines   from brain-computer interfaces to evolutionary design he is poised to develop the next generation of adaptive, learning-based systems for real-world problems. His future work will likely explore deeper integration of physical sensor data with AI for predictive diagnostics, smart engineering systems, and dynamic experimentation frameworks. His legacy will be defined by a commitment to bridging machine learning with experimental sciences for enhanced innovation and societal impact.

Experimental Physics

Dr. Tahernezhad-Javazm’s research actively contributes to Experimental Physics through MEG calibration systems, real-time brain-machine interface innovations, and AI-driven optimization. His hybrid models enhance algorithmic performance in domains rooted in Experimental Physics, especially in neurotechnology and intelligent systems. The intersection of machine learning, signal processing, and physical experimentation in his research will continue to shape developments in Experimental Physics for years to come.

 Notable Publications

Mapping the path to decarbonised agri-food products: A hybrid geographic information system and life cycle inventory methodology for assessing sustainable agriculture
Authors: W. Martindale, A. Saeidan, F. Tahernezhad-Javazm, T.Æ. Hollands, L. Duong, ...
Journal: International Journal of Food Science and Technology
Year: 2024
Citations: 2

R2 Indicator and Deep Reinforcement Learning Enhanced Adaptive Multi-Objective Evolutionary Algorithm
Authors: F. Tahernezhad-Javazm, D. Rankin, N. Du Bois, A.E. Smith, D. Coyle
Journal: arXiv preprint
Year: 2024
Citations: 1

R2-HMEWO: Hybrid multi-objective evolutionary algorithm based on the Equilibrium Optimizer and Whale Optimization Algorithm
Authors: F. Tahernezhad-Javazm, D. Rankin, D. Coyle
Conference: IEEE World Congress on Computational Intelligence
Year: 2022
Citations: 8

A Hybrid Multi-Objective Teaching Learning-Based Optimization Using Reference Points and R2 Indicator
Authors: F. Tahernezhad-Javazm, D. Rankin, D. Coyle
Conference: International Conference on Intelligent Systems, Metaheuristics & Swarm Intelligence
Year: 2022
Citations: 2

Ontology based information integration: A survey
Authors: M. Alizadeh, M.H. Shahrezaei, F. Tahernezhad-Javazm
Journal: arXiv preprint
Year: 2019
Citations: 9

Takashi Ohshima – Organic Chemistry – Best Researcher Award 

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Prof. Takashi Ohshima - Organic Chemistry - Best Researcher Award 

Prof. Takashi Ohshima, Kyushu University, Japan

Prof. Dr. Takashi Ohshima is a distinguished synthetic organic chemist and Distinguished Professor at the Graduate School of Pharmaceutical Sciences, Kyushu University. He earned his Ph.D. from the University of Tokyo under Prof. M. Shibasaki and completed postdoctoral research at The Scripps Research Institute with Prof. K.C. Nicolaou. His pioneering research spans digitalization-driven organic synthesis, catalysis, natural product synthesis, green chemistry, and medicinal chemistry. Prof. Ohshima has held numerous leadership roles, including Vice-Dean at Kyushu University and Vice-President of the Pharmaceutical Society of Japan. He is a recipient of several prestigious awards and has contributed extensively to global scientific collaborations and academic development.

Author Profile

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Education

Prof. Dr. Takashi Ohshima obtained his academic training from the prestigious University of Tokyo, where he completed his B.Sc. in Pharmaceutical Sciences in 1991 under the mentorship of Prof. M. Ohno. He continued his education at the same institution, earning his M.Sc. in 1993 and his Ph.D. in 1996 under the supervision of the renowned chemist Prof. M. Shibasaki. His doctoral research, which focused on the asymmetric Heck reaction and carbanion capture processes, culminated in the catalytic asymmetric total synthesis of (–)-Δ⁹(¹²)-Capnellene a challenging target in natural product chemistry. This early exposure to complex reaction mechanisms and catalytic strategies laid the groundwork for his future contributions to organic synthesis.

Professional Experience and Leadership

Prof. Ohshima currently holds the position of Distinguished Professor at the Graduate School of Pharmaceutical Sciences, Kyushu University, and has served in this role since 2021. He has also been the Vice-Dean of the school since 2014 and became a full professor in 2010. Before his tenure at Kyushu University, he served as an Associate Professor at Osaka University from 2005 to 2010, and prior to that, as an Assistant Professor at the University of Tokyo. His international experience includes a postdoctoral fellowship at The Scripps Research Institute under the mentorship of Prof. K.C. Nicolaou, where he was involved in the total synthesis of complex molecules like Sarcodictyins, Eleutherobin, and Sanglifehrin A. Additionally, he briefly worked in the pharmaceutical industry at Otsuka Pharmaceutical Co., enhancing his practical knowledge of drug development.

Research Focus and Contributions

Prof. Ohshima’s research interests span a wide array of topics in organic chemistry, including digitalization-driven transformative organic synthesis, green and sustainable chemistry, the development of new catalytic methodologies, natural product synthesis, and medicinal chemistry. As Principal Investigator of the national research initiative "DigiTOS," he is at the forefront of integrating digital tools into synthetic organic chemistry to revolutionize how chemical transformations are developed and optimized. His laboratory is known for pioneering new catalytic systems and methodologies that contribute to more efficient, environmentally friendly chemical processes. His scientific output reflects a commitment to practical innovation, with numerous publications, patents, and collaborative projects that have pushed the boundaries of contemporary organic synthesis.

Awards and Recognition

Prof. Ohshima's academic excellence and innovation have been widely recognized through numerous national and international awards. Among his many accolades are the 2024 NAGASE Science Technology Foundation Award, the 2023 BCSJ Award, and multiple Asian Core Program Lectureship Awards from countries including Taiwan, China, Singapore, and Korea. He also received the Green Sustainable Chemistry Award with the MEXT Award in 2010 and the prestigious Fujisawa Award from the Society of Synthetic Organic Chemistry, Japan in 2000. These honors underscore both the scientific merit and practical impact of his work, particularly in advancing sustainable and process-efficient chemistry.

Scientific and Educational Activities

Beyond his research, Prof. Ohshima is a key figure in the Japanese and international scientific communities. He currently serves as Vice-President of the Pharmaceutical Society of Japan and has held various leadership roles such as chair and organizing committee member for several major conferences, including the 145th Annual Meeting of the Pharmaceutical Society of Japan and the International Kyoto Conference on Organic Chemistry. He is actively involved in educational outreach, having delivered lectures at institutions like the University of Tokyo, Osaka University, Kyoto University, and international platforms including India’s GIAN program and Université Louis Pasteur in France. Through his tireless efforts in education, mentorship, and leadership, Prof. Ohshima continues to shape the future of organic chemistry both in Japan and globally.

 Notable Publication

1️⃣ Catalytic diazene synthesis from sterically hindered amines for deaminative functionalization, Nature Communications (2025), Citations: 0

2️⃣ Sc(OTf)₃-Catalyzed C–C Bond Cleavage of Unactivated Acylazaarenes with 1,2-Diamines to Afford Azaarenes and Imidazoles, Organic Letters (2025), Citations: 0

3️⃣ Primary Allylic Amine Synthesis via Pd-Catalyzed Direct Amination of Allylic Alcohols with Ammonium Acetate, Journal of Organic Chemistry (2024), Citations: 1

4️⃣ α,β-Dehydroamino Acid Synthesis through Proline-Catalyzed Aldol Condensation with a Glycine Schiff Base, Precision Chemistry (2024), Citations: 1

5️⃣ Evaluation of functional group compatibility and development of reaction-accelerating additives in ammonium salt-accelerated hydrazinolysis of amides, Frontiers in Chemistry (2024), Citations: 0

6️⃣ Editorial: Recent advances in synthesizing and utilizing nitrogen-containing heterocycles, Editorial, Citations: 1

7️⃣ Inhibitory Effect of Pyra-Metho-Carnil on Cancer Spheroid Growth Through Decrease in Glycolysis-associated Molecules, Anticancer Research (2023) Citations: 1

Jorge Menezes – Spectroscopy – Best Researcher Award 

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Assoc. Prof. Dr. Jorge Menezes - Spectroscopy - Best Researcher Award 

Assoc. Prof. Dr. Jorge Menezes, Universidade Federal do Recôncavo da Bahia (UFRB), Brazil 

Assoc. Prof. Dr. Jorge Menezes is a renowned chemist specializing in inorganic chemistry and photoluminescent materials. He holds a Ph.D. from the University of São Paulo and completed postdoctoral research at the University of Aveiro, Portugal. Currently a Professor at the Federal University of Recôncavo da Bahia (UFRB), he has led multiple academic and research initiatives, including coordinating the PIBID/UFRB Chemistry Program (2014–2021) and the GMF Photonic Materials Research Group. His work focuses on luminescent lanthanide complexes for light-converting molecular devices and hybrid photovoltaic systems. Dr. Menezes is also a member of SBQ, SBPC, INCT/CNPq, and serves as CEO of the startup LUMINTECH3.

 

Author Profile

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Education

Assoc. Prof. Dr. Jorge Fernando Silva de Menezes holds an extensive academic background rooted in chemical sciences. He earned his undergraduate degree in Industrial Chemistry from the Universidade Federal da Paraíba (UFPB) in 1993 and completed a second degree in Licenciatura Plena em Química from Faculdade Oswaldo Cruz in 1999. In the same year, he obtained his Ph.D. in Inorganic Chemistry from the Universidade de São Paulo (USP), with a dissertation on the photoluminescence of lanthanide tris-thenoyltrifluoroacetonates coordinated with sulfoxides. His doctoral work, supervised by Prof. Dr. Hermi Felinto de Brito, was supported by FAPESP and focused on the spectroscopic behaviors of europium complexes, laying the foundation for his future specialization in lanthanide photophysics. He further expanded his expertise through a postdoctoral fellowship at the Universidade de Aveiro in Portugal, funded by the Fundação para a Ciência e a Tecnologia (FCT), where he deepened his engagement with advanced luminescent materials.

Academic and Professional Experience

Dr. Menezes currently serves as an Associate Professor IV at the Universidade Federal do Recôncavo da Bahia (UFRB), as appointed by Portaria 1029 in September 2023. He has played multiple academic leadership roles throughout his career, including serving as Coordinator of the Chemistry Licensure Program (2017–2019), Coordinator of the Innovation and Creation Unit (CINOVA), and leader of the PIBID-UFRB Chemistry program from 2014 to 2021. In parallel, he contributes to academic quality assurance as an evaluator for Brazil’s Ministry of Education since 2006. He is also affiliated with several graduate programs, including PROFQUI-UFRB and the PPGQUIM program at the Universidade Estadual de Santa Cruz (UESC), where he contributes as a permanent faculty member. As the coordinator for the academic field of Chemistry, Technology, and Society at UFRB/CFP for the 2023–2025 biennium, he continues to shape academic policy and innovation. He is also the CEO of the startup LUMINTECH3, reflecting his active role in bridging research with industrial applications.

Research Focus and Contributions

Dr. Menezes is widely recognized for his expertise in photoluminescence and coordination chemistry involving lanthanide ions such as europium, terbium, samarium, and gadolinium. His research primarily explores the synthesis and spectroscopic characterization of molecular devices for light conversion, including luminescent complexes designed for photovoltaic cells and trace detection systems. He has significantly contributed to the advancement of light-emitting materials for energy and environmental applications. As the founder and leader of the Grupo de Materiais Fotônicos (GMF), a CNPq-recognized research group, he directs interdisciplinary efforts toward developing novel luminescent and photonic materials. His work spans multiple sectors, from academic research and science outreach to applied technology in nanoscience and energy sustainability.

Awards and Recognition

Throughout his career, Dr. Menezes has received several prestigious distinctions and opportunities for professional development. These include numerous advanced training programs and workshops in photochemistry, quantum efficiency, fluorescence spectroscopy, medicinal inorganic chemistry, and molecular nanotechnology, often supported by Brazilian scientific societies and governmental institutions. His involvement with national initiatives such as the INCT/CNPq in Energy and Environment highlights his influence in shaping Brazil’s scientific landscape. As an active member of the Sociedade Brasileira de Química (SBQ) and the Sociedade Brasileira para o Progresso da Ciência (SBPC), he maintains strong ties with the broader scientific community. His leadership in both academic and startup environments showcases a rare blend of scholarly depth and entrepreneurial vision, reinforcing his role as a prominent figure in Brazilian inorganic chemistry and materials science.

 Notable Publication

1️⃣Experimental and theoretical emission quantum yield in the compound Eu(thenoyltrifluoroacetonate)₃·2(dibenzyl sulfoxide), Chemical Physics Letters (1998), Citations: 239

2️⃣Luminescence investigation of the Sm(III)-β-diketonates with sulfoxides, phosphine oxides and amides ligands, Journal of Alloys and Compounds (2002), Citations: 138

3️⃣Highly luminescent europium(III) complexes with naphtoiltrifluoroacetone and dimethyl sulphoxide, Molecular Physics (2003), Citations: 120

4️⃣Luminescent properties of diketonates of trivalent europium with dimethyl sulfoxide, Journal of Alloys and Compounds (2000), Citations: 113

5️⃣Emission quantum yield of europium(III) mixed complexes with thenoyltrifluoroacetonate and some aromatic ligands, Journal of Alloys and Compounds ( 2000), Citations: 87

6️⃣Luminescence of the films of europium(III) with thenoyltrifluoroacetonate and macrocyclics, Journal of Non-Crystalline Solids (1999), Citations: 73

7️⃣ Spectroscopic properties of a new light-converting device Eu(thenoyltrifluoroacetonate)₃·2(dibenzyl sulfoxide). A theoretical analysis based on structural data obtained from …, Journal of Luminescence (1997), Citations: 472

Pan Pan – Quantum Cryptography – Best Researcher Award 

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Prof. Dr. Pan Pan - Quantum Cryptography - Best Researcher Award 

Prof. Dr. Pan Pan - Anqing Normal university - China

Prof. Dr. Pan Pan is a distinguished expert in integrated optics, currently serving as a Professor at Anqing Normal University, China. His research focuses on optical waveguides, photonic integrated circuits, quantum key distribution systems, and on-chip photonic sensing for optical communications and trace gas detection. He has published over 10 academic papers as first or corresponding author and holds 6 authorized invention patents. Recognized as a “Rising Teaching Star” in Anhui Province, he has led or participated in more than 15 national and provincial research projects, contributing significantly to innovation in integrated circuits and talent development.

Author Profile

Scopus

Education

Prof. Dr. Pan Pan earned his Ph.D. in Optical Engineering from the University of Chinese Academy of Sciences in 2015, one of China’s most prestigious research institutions. This academic training laid a robust foundation in optics, photonics, and integrated circuit technologies, preparing him for a career dedicated to innovation in optical communication and sensing systems. His doctoral work equipped him with a deep understanding of photonic device physics, optical waveguide design, and system-level integration, which he continues to build upon in his current research.

Academic and Professional Experience

Currently serving as a professor at Anqing Normal University in China, Prof. Pan Pan has distinguished himself as an expert in integrated optics, with a specialization in optical waveguides and photonic integrated circuits. Over the years, he has led or participated in more than 15 research projects funded by national and provincial bodies. His academic journey has included collaborations with industry and academia, enabling him to bridge the gap between theoretical research and practical application. He has authored more than 10 peer-reviewed academic papers as either the first or corresponding author, published in reputed journals such as Optical Materials, Applied Optics, and Chinese Physics B. These works reflect his contributions to areas such as optical couplers, variable attenuators, hybrid photonic circuits, and quantum communication systems.

Research Focus and Contributions

Prof. Pan’s research spans several cutting-edge fields, including the design and fabrication of optical waveguides, photonic integrated circuits (PICs), quantum key distribution (QKD) systems, and on-chip gas sensing technologies. His work is centered on developing advanced optical devices for secure communication, environmental monitoring, and high-performance photonic systems. Notably, his team has developed high-efficiency fiber-to-chip edge couplers, polarization-insensitive optical hybrids, and balanced pulse generation systems, significantly enhancing the performance and reliability of optical communication devices. His inventions in quantum communication, particularly chip-based and device-independent QKD systems, represent pioneering strides toward compact, secure photonic encryption technologies.

Patents and Innovation

In addition to his scholarly publications, Prof. Pan holds six authorized invention patents, three of which have been granted in the last five years. These patents include a multi-protocol compatible QKD integrated chip for high-speed encoding and a device-independent QKD system method based on chip technology both of which contribute to secure, scalable quantum communication systems. Another noteworthy patent involves itemized test equipment for evaluating non-contact characteristics, which holds cross-border protection in China and South Africa, demonstrating his research’s international relevance.

Awards and Recognition

Prof. Pan Pan has been recognized as a “Rising Teaching Star” in Anhui Province, a testament to his dual excellence in both teaching and research. His efforts in nurturing talent and promoting industrial innovation in integrated circuits have positioned him as a key figure in regional academic development. His interdisciplinary work and sustained contributions to integrated optics and photonic systems continue to influence academic research and practical applications alike, making him a significant contributor to China’s growing photonics industry.

 Notable Publication

1️⃣High-efficiency and high-tolerance fiber-to-chip edge coupler based on tilted periodically segmented waveguides, Optical Materials (2025)

2️⃣Near-infrared high-precision CH₄ and H₂O sensor based on laser temperature variation and gas concentration averaging method, Sensors and Actuators B: Chemical (2025)

3️⃣ Multivariate-coupled-enhanced photoacoustic spectroscopy with Chebyshev rational fractional-order filtering algorithm for trace CH₄ detection, Photoacoustics (2025), Citations: 2

Modassir Anwer – Solid-State Physics – Best Researcher Award 

Published on by Global Physics Awards

Mr. Modassir Anwer - Solid-State Physics  - Best Researcher Award 

Mr. Modassir Anwer, Indian Institute of Technology Kanpur , India 

Mr. Modassir Anwer is currently a Ph.D. scholar in Microelectronics and VLSI at the Indian Institute of Technology Kanpur, India. His research focuses on the growth, doping, and device fabrication of Ga₂O₃ and In₂O₃ using LPCVD, including simulations and thermal analysis of AlN/InGa₂O₃ HEMTs. He previously worked as a Research Assistant at IIT Kanpur and holds an M.Tech. in Nano Science & Technology from Jadavpur University and a B.Tech. in Electronics & Communication Engineering from St. Thomas College of Engineering & Technology, Kolkata. He has also served as a tutor and teaching assistant for multiple undergraduate and postgraduate electronics courses at IIT Kanpur.

Author Profile

Scopus | Orcid

Education

Mr. Modassir Anwer has cultivated a strong academic foundation in the field of microelectronics and nanotechnology, beginning with a Bachelor of Technology in Electronics and Communication Engineering from St. Thomas College of Engineering & Technology, Kolkata, where he graduated in 2015 with a commendable CGPA of 8.19 out of 10. He further advanced his expertise by pursuing a Master of Technology in Nano Science and Technology from Jadavpur University, Kolkata, completing the program in 2017 with a CGPA of 7.44. Driven by a deep interest in semiconductor technology and device fabrication, he is currently pursuing a Ph.D. in Microelectronics and VLSI at the prestigious Indian Institute of Technology (IIT) Kanpur. He began his doctoral studies in December 2019 and has maintained a strong academic performance with a CGPA of 7.61 out of 10.

Research Experience and Contributions

During his Ph.D. at IIT Kanpur, Mr. Anwer has been actively engaged in cutting-edge research focused on the growth, doping, and device fabrication of wide-bandgap semiconductors, specifically Ga₂O₃ and In₂O₃, utilizing Low-Pressure Chemical Vapor Deposition (LPCVD) techniques. His work has contributed to the advancement of high-power and high-frequency electronic devices. A notable part of his research involves the simulation of AlN/InGa₂O₃ High Electron Mobility Transistors (HEMTs), where he explores their electrical and thermal behavior using advanced tools such as COMSOL Multiphysics. Additionally, his work on silicon doping in Ga₂O₃ aims to fine-tune the electrical properties of these materials for device applications. His research has substantial implications in the development of next-generation electronics and power devices, particularly in harsh or high-temperature environments.

Teaching Experience

Mr. Anwer has demonstrated a strong commitment to academic mentorship through his roles as a tutor and teaching assistant at IIT Kanpur. He served as a tutor for five semesters, where he was responsible for designing experiments and managing the laboratory for the undergraduate course "Introduction to Electronics (ESC 201)." His responsibilities extended beyond technical instruction, encompassing classroom engagement and practical laboratory supervision. Additionally, he has served as a teaching assistant across four semesters for several core subjects, including "Introduction to Electronics," "Solid State Devices I," "Integrated Circuit Fabrication Technology," and "Microelectronics - II." Through these roles, he has contributed significantly to the academic growth of undergraduate and postgraduate students alike.

Research Focus

Mr. Anwer’s research is at the intersection of materials science, semiconductor device engineering, and simulation. His current focus on Ga₂O₃ and In₂O₃ semiconductors places him at the forefront of emerging materials research. These materials are regarded as potential successors to conventional silicon-based devices due to their superior breakdown voltage, higher thermal stability, and suitability for power electronics. By exploring doping mechanisms, device architecture, and thermal performance, Mr. Anwer aims to contribute to the development of more efficient and compact semiconductor devices suitable for modern-day applications such as renewable energy systems, electric vehicles, and radio-frequency electronics.

Awards and Recognition

While specific awards have not been detailed, Mr. Modassir Anwer’s academic trajectory and his association with elite institutions such as IIT Kanpur and Jadavpur University highlight his merit and potential in the field of microelectronics. His continued involvement in high-impact research and teaching underlines a profile marked by academic rigor, technical proficiency, and a passion for advancing semiconductor technology.

 Notable Publication

📘LPCVD grown n-type doped β-Ga₂O₃ films on c-plane sapphire using TEOS precursor - Materials Science in Semiconductor Processing(2025)

Dinesh Kulhary – Organic-inorganic Hybrid Perovskites – Innovative Research Award 

Published on by Global Physics Awards

Assistant Professor Dr. Dinesh Kulhary began his academic journey with a strong foundation in the physical sciences. He pursued a Bachelor’s degree in Chemistry, Physics, and Mathematics from Maharaja Ganga Singh University (2012–2015), followed by an M.Sc. in Chemical Sciences from Visvesvaraya National Institute of Technology (VNIT), Nagpur (2015–2017), where he graduated with a commendable final grade of 7.75 out of 10. His passion for materials science and device applications grew during these formative years, ultimately leading to his pursuit of a PhD at Jawaharlal Nehru University, completed in 2024. His doctoral thesis focused on “Exploration of electrical, optical, and thermal properties of lead-free organic-inorganic hybrid perovskites for device applications.”

Professional Endeavors

Dr. Kulhary has swiftly established himself as a promising academic and researcher. He currently serves as an Assistant Professor at Career Point University, Kota (since February 2025), and previously held a similar role at Eklavya Vidyapeeth (P.G.) College, Hanumangarh. His academic roles are complemented by an impressive array of invited talks and presentations at international and national conferences. Through these roles, he has made a notable impact in the academic realm, particularly in the study of organic-inorganic hybrid perovskites and their multifaceted properties for optoelectronic and sensing applications.

Contributions and Research Focus

Dr. Kulhary's Ph.D. work forms the backbone of his scientific contributions, focusing extensively on the exploration of lead-free organic-inorganic hybrid perovskites. His research has led to the synthesis and structural elucidation of new perovskite materials with multifunctional properties—such as humidity sensing, photoluminescence, and rewritable photoluminescent printing thus contributing to the development of sustainable alternatives in optoelectronic devices. Notable among his findings is the material [Ph MeP][CuBr], examined for humidity sensing, and [(CH₃)₄N]₂CuBr₄, for its photoelectric and optical behavior.

Impact and Influence

Dr. Kulhary’s academic impact extends beyond national borders. He has participated in several prestigious international conferences, such as ASCA 2024 in Kuala Lumpur, the 26th IUCr Congress in Melbourne (2023), and the 61st Quantum Crystallography School in Erice, Italy (2025). These experiences reflect his global scientific engagement and reinforce his status as a rising figure in the field of organic-inorganic hybrid perovskites. His active involvement in oral and poster presentations, especially in crystallography and nanotechnology events, demonstrates his contribution to advancing material science on a global scale.

Academic Cites

Although still in the early stages of his academic publishing career, Dr. Dinesh Kulhary has already made strides toward establishing a strong scholarly presence. His papers on the optoelectrical properties of lead-free organic-inorganic hybrid perovskites have drawn interest from researchers working in crystal engineering and materials science. With growing recognition, his research is poised to receive more citations as he continues to contribute high-quality, original work in an environmentally significant domain.

Legacy and Future Contributions

Looking to the future, Assist. Prof. Dr. Dinesh Kulhary is positioned to become a leading voice in the study of sustainable perovskite materials. His commitment to scientific advancement, international collaboration, and student mentorship promises to shape the next generation of researchers. His legacy will likely be defined by his dedication to developing eco-friendly organic-inorganic hybrid perovskites, tailored for real-world applications in sensors, photovoltaics, and display technologies. As he continues to innovate, Dr. Kulhary is set to further elevate India’s position in the global material science and crystallography research landscape.

Organic-inorganic Hybrid Perovskites

Assist. Prof. Dr. Dinesh Kulhary’s body of work is centered on the synthesis and application of organic-inorganic hybrid perovskites, especially in lead-free, environmentally friendly forms. His innovations in organic-inorganic hybrid perovskites address modern technological challenges in optoelectronics and sensing. Through international exposure and pioneering experimentation, he has carved a niche in the field of organic-inorganic hybrid perovskites, ensuring both scientific relevance and real-world applicability.

Notable Publication

1️⃣ Role of precursors on photocatalytic behavior of graphitic carbon nitride

Type: Conference Paper

Citations: 37

Prashanth Manthramurthy – Computational Fluid Dynamics – Best Researcher Award 

Published on by Global Physics Awards

Dr. Prashanth Manthramurthy's academic journey began with a strong foundation in mathematics and the physical sciences. He earned his B.Sc. in Mathematics, Physics, and Computer Science in 2003 from Osmania University, followed by a B.Ed. in Mathematics & Physical Science in 2005. He then completed his M.Sc. in Mathematics in 2007, also at Osmania University. His passion for advanced mathematics and its applications led him to pursue a Ph.D. in Mathematics (specializing in Fluid Dynamics) at Anurag University, Hyderabad—an academic pursuit that shaped his long-term dedication to Computational Fluid Dynamics and applied mathematical modeling.

💼 Professional Endeavors

Since June 2010, Dr. Manthramurthy has been serving as an Assistant Professor of Mathematics at Little Flower Degree College, Uppal, Hyderabad. Over his tenure, he has taken on additional leadership roles, including serving as the IQAC Coordinator since May 2021 and as the NSS Program Officer since 2015. His commitment to academic excellence and institutional development is evident through these extended responsibilities. Through these roles, he has fostered a culture of academic rigor and student engagement while continuing his contributions to research in Computational Fluid Dynamics and numerical analysis.

🔬 Contributions and Research Focus

Dr. Manthramurthy's primary research interests lie in Differential Equations, Fluid Mechanics, Cryptography, and Linear Algebra & Real Analysis. His doctoral work focused on Fluid Dynamics and Numerical Techniques, contributing to advancements in Computational Fluid Dynamics. His current research delves into cross-diffusion systems, numerical modeling of fluid behavior, and the mathematical structure of real-world dynamical systems. With over five peer-reviewed journal publications between 2024 and 2025, his work is steadily gaining traction in the applied mathematics community.

🌍 Impact and Influence

Dr. Manthramurthy has made a meaningful impact both as an educator and a researcher. His dual roles in teaching and academic coordination have strengthened the quality of education at Little Flower Degree College. Recognized by awards such as the Thermodynamics Mastery Award and the Best Researcher Award (2024) by Science Father/ResearchChemistry.org, his influence in academic circles continues to grow. His work in Computational Fluid Dynamics has informed both theoretical frameworks and applied numerical simulations, contributing to the broader understanding of fluid mechanics.

🏆Academic Cites

Though in the early stages of building his publication portfolio, Dr. Manthramurthy's research has begun attracting attention. His studies in Computational Fluid Dynamics and differential equations are cited in peer-reviewed journals, establishing a strong foundation for future academic recognition. His research demonstrates practical relevance and theoretical depth, opening avenues for interdisciplinary applications.

🌟 Legacy and Future Contributions

Dr. Prashanth Manthramurthy's legacy lies in his deep commitment to mathematics education and research. As he continues to mentor students and contribute to the field of Computational Fluid Dynamics, his influence will likely extend into interdisciplinary science and engineering applications. Future contributions may involve collaborations across institutions, development of educational frameworks in applied mathematics, and further exploration of numerical models in fluid systems. His trajectory suggests a growing role as a thought leader in applied mathematics and computational science.

📘 Computational Fluid Dynamics

Dr. Prashanth Manthramurthy's research in Computational Fluid Dynamics focuses on cross-diffusion, differential equations, and numerical modeling. Through his contributions to Computational Fluid Dynamics, he is advancing applied mathematics in fluid mechanics. His ongoing work in Computational Fluid Dynamics serves as a critical bridge between theoretical analysis and real-world engineering solutions.

✍️ Notable Publication

1️⃣ Significance of multiple slips and thermal radiation on heat and mass transfer in MHD Casson nanofluid flow over an exponentially stretching porous sheet with non-uniform heat source and sink

Journal: Multiscale and Multidisciplinary Modeling, Experiments and Design

Year: 2025

Citations: 1