Ugochinyere Agatha Okafor | Climate Change | Best Researcher Award

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Dr. Ugochinyere Agatha Okafor | Climate Change | Best Researcher Award 

University of The Gambia | Gambia

Ugochinyere Agatha Okafor is an emerging researcher in climate change, environmental health, and malaria epidemiology, with a strong interdisciplinary background spanning biochemistry, microbiology, molecular biology, and public health. She has over nine years of combined experience in teaching, laboratory research, marketing, and scientific data analysis, working effectively in multicultural and collaborative environments. Her academic trajectory includes a BSc in Biochemistry, an MSc in Basic Medical Biochemistry, a Diploma in Education, a PhD in Climate Change and Education, and several specialized trainings in epidemiology, climate change, planetary health, quantitative and mixed-methods research, and medical statistics. Her research has produced 3 scientific documents, supported by 1 citation and an h-index of 1, reflecting her growing scholarly impact. She has contributed to peer-reviewed publications addressing climate–malaria interactions, community knowledge and perception of climate risks, and predictive modelling of malaria prevalence under different climate scenarios. Her work also appears in international book chapters and high-impact journals, with additional manuscripts currently under peer review. As a part-time lecturer at the University of The Gambia, she teaches biochemistry and supports research development within the Department of Public and Environmental Health. Her PhD project focuses on assessing climate change awareness, analyzing climate–malaria relationships using machine learning approaches, and evaluating climatic and non-climatic determinants of malaria burden in the Upper River Region of The Gambia. Previously, she served as a science teacher and laboratory manager, and earlier completed an internship at the Medical Research Council in The Gambia, where she worked on major microbiological and molecular surveillance projects examining pneumococcal and meningococcal disease burden in West Africa.

Profile: Scopus 

Featured Publications 

Okafor, U. A., Yaffa, S., D’Alessandro, U., Ojeh, V. N., & Filho, W. L. (2025). Evaluation of knowledge, perception, and attitude of malaria burden in the Upper River Region of The Gambia. Malaria Journal.

Rahimeh Eshaghi Malekshah | Inorganic Chemistry | Best Researcher Award

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Dr. Rahimeh Eshaghi Malekshah | Inorganic Chemistry | Best Researcher Award 

Kaohsiung Medical University | Taiwan

Dr. Rahimeh Eshaghi Malekshah is an accomplished inorganic and bioinorganic chemist whose research spans coordination chemistry, nanomaterials, biomaterials, plasma medicine, and medicinal chemistry, with a strong record of academic, industrial, and interdisciplinary contributions. She has completed multiple postdoctoral appointments at Kaohsiung Medical University, Taiwan, advancing innovative studies on the self-assembly behavior, bio-inspired reactivity, and nitric oxide–related mechanisms of β-thioketiminato copper complexes and metal–nitrite systems. Dr. Eshaghi has an extensive publication profile with 30 documents, 853 citations, and an h-index of 19, reflecting the significant impact and visibility of her scientific work. Her expertise includes the synthesis and characterization of inorganic/organic complexes, nanoparticles, LDHs, MOFs, zeolites, polymers for tissue engineering, anticancer drug carriers, and advanced functional materials used in environmental remediation and biomedical applications. She has supervised and advised numerous Ph.D. and M.Sc. theses across inorganic chemistry, biochemistry, medicine, veterinary sciences, immunology, drug chemistry, and organic chemistry, contributing to the development of novel metal complexes, nanocarriers, anticancer agents, hydrogels, and computational molecular designs. Her industrial experience includes leading cell and genetics units in plasma medicine, contributing to clinical treatments for diabetic ulcers, surgical wounds, and cancer using non-thermal plasma technologies. She has collaborated internationally with research groups in Morocco and India and actively participated in scientific committees, workshops, and conferences. As an award-winning researcher, journal reviewer, editorial manager, and patent contributor, Dr. Eshaghi continues to integrate experimental chemistry, computational modeling, and biomedical innovation to address challenges in health, materials science, and environmental sustainability.

Profile: Scopus | Orcid |Google Scholar

Featured Publications 

Eshaghi Malekshah, R. (2025). Advanced contaminant removal through synergistic interactions of montmorillonite, CoFe₂O₄ nanoparticles, and surfactants: Combining theoretical and experimental approaches. Journal of Molecular Liquids.

Eshaghi Malekshah, R. (2025). Stimulation of the immune system and apoptosis induction by new cobalt(III) H₂salophen complexes in breast cancer mouse model and docking calculations. Journal of Biomolecular Structure and Dynamics.

Eshaghi Malekshah, R. (2025). Navigating the molecular landscape of environmental science and heavy metal removal: A simulation-based approach. [Journal Name].

Wei Hongxiang | Bone Tumor | Best Researcher Award

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Dr. Wei Hongxiang | Bone Tumor | Best Researcher Award 

The First Affiliated Hospital of Fujian Medical University | China

Dr. Wei Hongxiang is an emerging clinical researcher in orthopedics whose scholarly contributions reflect a strong commitment to advancing bone tumor therapy, nanomedicine, and neuroimmune regulatory mechanisms. With a research output comprising 17 documents, an h-index of 8, and more than 462 citations, his work demonstrates both productivity and meaningful scientific impact across interdisciplinary domains. Dr. Wei has made notable advancements in osteosarcoma-targeted therapeutics, particularly through the development of mesenchymal stem cell–derived exosome nanodrug delivery systems for doxorubicin, offering enhanced precision and reduced systemic toxicity. His studies on molecular diagnostic technologies, ultrasensitive detection platforms, and tumor microenvironment biomarkers have further contributed to early detection and improved clinical management of bone malignancies. In collaboration with leading experts, he has published high-quality research in reputable journals, including Q1-ranked international publications in nanomedicine, analytical chemistry, and clinical pathology, strengthening the translational value of his findings. His work also spans important investigations into tumor progression signaling pathways, therapeutic resistance mechanisms, and novel intervention targets such as BUB1, NLRP3, EGFR, and gasdermin D. Beyond journal articles, Dr. Wei has contributed to innovative medical device and pharmaceutical patents, demonstrating strong applied research potential within orthopedic oncology. With academic training across clinical medicine, orthopedic surgery, and doctoral-level specialization, supported by national scholarships and professional medical licensing, he brings a well-rounded clinical-scientific perspective to orthopedic tumor research. Dr. Wei’s ongoing focus on bone tumor biology, neuroimmune interactions, and cutting-edge diagnostic platforms positions him as a rising researcher dedicated to improving cancer treatment outcomes and expanding the frontiers of orthopedic oncology.

Profile: Scopus 

Featured Publications 

Wei, H. (2025). The integrin α2–osteoclast axis: A key driver of bone destruction and therapeutic target in osteosarcoma. Journal of Translational Medicine.

Muhammad Ali | Green Resilient Buildings | Editorial Board Member

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Dr. Muhammad Ali | Green Resilient Buildings | Editorial Board Member 

University of Engineering and Technology | Pakistan

Dr. Muhammad Ali-Falak (official name: Muhammad Ali) is a distinguished civil engineer, educator, and Fulbright scholar whose academic and professional journey spans leading institutions across the United States, Japan, Pakistan, and the United Kingdom. With a Ph.D. in Civil Engineering from Texas A&M University, an M.Sc. in Geotechnical Engineering from The University of Tokyo, and a top-ranking B.Sc. from the University of Engineering & Technology, he has built a strong foundation in geotechnics, climate resilience, clean energy, and sustainable infrastructure. His Google Scholar profile reflects impactful research with an h-index of 5, 12 documents, and over 120 citations, demonstrating a growing scholarly footprint in geotechnical engineering, soil behavior, slope stability, climate-driven infrastructure challenges, and applied machine learning. As an Assistant Professor at the University of Engineering & Technology, he has taught and trained thousands of students, supervised innovative undergraduate theses, and delivered national and international training on professional ethics, climate change mitigation, nuclear waste management, surveying, global scholarship pathways, and cross-cultural communication. His professional experience includes key engineering roles at the National Engineering Services Pakistan, major contributions to geotechnical investigations, laboratory and field experimentation, and completion of multi-million-dollar slope stabilization and construction projects. Dr. Ali-Falak has earned numerous prestigious honors, including the Fulbright Scholarship, MEXT Scholarship, multiple research fellowships, leadership awards, and recognition for his service to climate initiatives and STEM outreach. As a committed leader and mentor, he serves as founder of HydroBox and Scholar01, a reviewer for Fulbright, a counselor for international scholars, and an active member of global engineering and climate-focused organizations.

Profile: Google Scholar

Featured Publications 

Ali, M., Zubair, A., Farooq, Z., Farooq, K., & Masoud, Z. (2025). Prediction of small-strain elastic stiffness of natural and artificial soft rocks subjected to freeze–thaw cycles. Journal of Rock Mechanics and Geotechnical Engineering, 6.

Ali, M., Zubair, A., Israr, J., Abbass, W., Masoud, Z., & Mohamed, A. (2025). A novel index to predict the cost of green resilient buildings. Heliyon, 11(1), 4.

Ali, M., Sanchez, M., Romero, E., Fabbri, H., Mokni, N., & Alcantara, A. M. (2025). Experimental and numerical investigation of gas breakthrough in barrier systems for geological repositories of high-level nuclear waste. Engineering Geology, 108196, 1.

Ali, M., Aziz, M., Ali, A., & Ali, U. (2025). Machine learning-based prediction of unconfined compressive strength of organic-rich clay shales using hybrid destructive and non-destructive inputs. Scientific Reports, 15(1), 31855.

Ali, M., Zubair, A., & Masoud, Z. (2025). −20 °C to 50 °C freeze–thaw: Anisotropic shale characteristic evaluation for crack depth prediction with parallel and perpendicular loading using ANN. Rock Mechanics and Rock Engineering, 1–28.

Izhar Ahmad | Laser Physics | Editorial Board Member

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Dr. Izhar Ahmad | Laser Physics | Editorial Board Member 

Pakistan Institute of Engineering & Applied Sciences (PIEAS) | Pakistan

Dr. Izhar Ahmad is a Principal Scientist at the National Institute of Lasers & Optronics (NILOP), Nilore, Islamabad, Pakistan, with a distinguished research profile in high-field physics, femtosecond lasers, short-pulse generation, and optical parametric amplification. As per his Google Scholar profile, he has authored 35 documents that together have been cited 1,460 times, giving him an h-index of 19, demonstrating his sustained influence and contribution to ultrafast optics. Over his career, he has led the development of high-power, few-cycle seed sources, chirped-pulse amplification systems, and petawatt-level parametric amplification, building on his PhD training at the Max-Planck Institute for Quantum Optics in Germany. His earlier experience at the Optics Labs in Nilore and his work on laser–matter interactions at NILOP have further consolidated his authority in the field. Dr. Ahmad’s publication record includes peer-reviewed articles in high-impact journals, conference contributions, and technological developments. His work on polymer composites for electromagnetic shielding (e.g., PVDF-PMMA nanocomposites with carbon nanofibers), terahertz time-domain spectroscopy, and ultrashort pulse characterization has advanced both fundamental science and applied photonics. His citation metrics reflect not only his productivity but also the broad relevance of his research  his highly cited papers have underpinned future developments in terahertz materials, ultrafast laser systems, and nonlinear optical instrumentation. Through his research and leadership at NILOP, Dr. Ahmad continues to shape the frontiers of laser science in Pakistan and globally.

Profile: Scopus| Google Scholar

Featured Publications 

Raza, K., Khan, H. A., Khan, S. D., Shahzad, A., Mahmood, M. A., Saif, M., Mumtaz, M., & Ahmad, I. (2025). An all-diode pumped 1.28-Joule, 200-picosecond Nd:YAG laser amplifier at 10 Hz. Optics Communications, 577, Article 131413. https://doi.org/10.1016/j.optcom.2024.131413

Farman, N., Mumtaz, M., Mahmood, M. A., Dogar, A. H., Tahir, S., Raza, K., & Ahmad, I. (2024). Temperature-dependent optical and dielectric properties of polyvinyl chloride and polystyrene blends in the terahertz regime. Infrared Physics & Technology, 131, 105546. https://doi.org/10.1016/j.infrared.2024.105546

Ali, A., Mumtaz, M., Mahmood, M. A., Khan, S. D., Saif, M., Khan, H. A., Dogar, A. H., & Ahmad, I. (2024). Discrimination of hydration states of hydrated salts using terahertz time-domain spectroscopy. Chemical Physics, 582, 112275. https://doi.org/10.1016/j.chemphys.2024.112275

Iftikhar, M., Shahzad, F., Iqbal, A., Mumtaz, M., Ahmad, I., Hassan, T., & Koo, C. M. (2024). Synergistic terahertz shielding effects of electrically conductive MXene and shape-controlled magnetic nickel in polyvinylidene fluoride (PVDF) composites. Journal of Alloys and Compounds, 174306. https://doi.org/10.1016/j.jallcom.2024.174306

Arooj, N., Mumtaz, M., Rehman, A., Ahmad, I., Khan, S., … (2023). Optimizing electromagnetic interference shielding of carbon nanofibers reinforced nylon 6,6 nanocomposite films in terahertz range. Journal of Applied Polymer Science, 140(18), e53790. https://doi.org/10.1002/app.53790

Raafat Abdul Hassan | Novice Physics | Editorial Board Member

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Dr. Raafat Abdul Hassan | Novice Physics | Editorial Board Member 

C.of Edu. Researches-studies, Ministry of Education | Iraq

Dr. Raafat AbdulHassan Muslim is a distinguished physicist whose career spans academic research, scientific committee leadership, and long-standing service within the Ministry of Education’s Directorate General of Curriculum, Department of Educational Technologies. Holding a B.Sc. in Physics, an M.Sc., and a Ph.D., he has built a strong scientific portfolio supported by an h-index, documents, and citations that reflect his sustained research impact across nuclear physics, radiation measurement, materials analysis, and applied educational technologies. His publications include influential studies on angular momentum distributions, indoor radon modeling, alpha particle stopping power, neutron-yield calculations, radionuclide production, and theoretical electronic current density—appearing in reputable national and international journals such as the Iraqi Journal of Engineering and Technology, Journal of the College of Education, Advances in Physics Theories and Applications, J. Chem. Bio. Phy. Sci., IJERM, and Radiation Physics and Chemistry. In parallel with his research, Dr. Raafat has played major roles in more than twenty high-level scientific, technical, and standardization committees, contributing to laboratory equipment specifications, physics curriculum modernization, development of experimental evidence, and advancement of educational technologies. His leadership as Head of the Laboratory Repair Division and Head of the Technical Division strengthened national capacity in laboratory maintenance, equipment design, and scientific resource development. He has also served as a lecturer and supervisor for multiple technical training courses, supporting the professional growth of educators and technicians. With recognized expertise, strong publication performance, and wide-ranging committee influence, Dr. Raafat continues to contribute meaningfully to physics education, laboratory development, and applied research in Iraq.

Profile: Google Scholar

Featured Publications 

Al-Agealy, H. J. M., Al-Hasan, H. H. D., Muslim, R. A. H., & Hassooni, M. A. (2024). Theoretical calculation of the electronic current density in ruthenium 620 contact with TiO₂ semiconductor in propanol solvent. Journal of Theoretical and Applied Physics, 18(2).

Muslim, R. A. H., Mahdi, K. H., & Ebrahiem, S. A. (2014). Study of properties for Ca (α, n) Ti reactions and n-yield for Ca isotopes (A = 41–50). Advances in Physics Theories and Applications, 1.

Yaqoob, S. N., & Muslim, R. A. H. (2024). Evaluation of radioactive contamination of radon gas inside and outside the building of the College of Education–Iraqi University–Iraq. Indonesian Journal of Physics, 35(2).

Muslim, R. A. H., Yaqoob, S. N., & Ghdban, R. Q. (2024). Refined formulation of the Taylor equation for calculating build-up factors of gamma rays in aluminium and anticipated radiation effects. Radiation Physics and Chemistry, 224, 112089.

Mohammed Fattah | Environmental Geotechnics | Editorial Board Member

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Prof. Dr. Mohammed Fattah | Environmental Geotechnics | Editorial Board Member 

University of Technology | Iraq

Dr. Mohammed Yousif Fattah is a distinguished Iraqi scholar in geotechnical and civil engineering, widely recognized for his extensive academic, research, and professional contributions. A professor at the University of Technology in Baghdad, he has built a career defined by scientific leadership, innovation, and educational excellence. His academic foundation includes a Ph.D. and M.Sc. in Geotechnical Engineering and a B.Sc. in Civil Engineering from the University of Baghdad. Over the years, he has held prominent administrative roles, including Head of the Roads and Bridges Branch, Head of the Scientific Promotion Committee, Member of the University Promotion Committee, and currently Deputy Dean of the Civil Engineering Department. Dr. Fattah’s research productivity is exceptional, with over 400 published papers, h-index: 31, citations: 3,724, and documents: 301 indexed in major databases. His supervision record is equally impressive, guiding M.Sc. and Ph.D. theses across multiple engineering disciplines, including geotechnical, structural, transportation, and water resources. He has also supervised postgraduate students internationally in the USA, Russia, and Malaysia. Dr. Fattah is an active member of key professional bodies, including the International Society of Soil Mechanics and Geotechnical Engineering, ASCE, EASD, and the Iraqi Society of Soil Mechanics. His innovative contributions are further demonstrated through 14 registered patents, covering advanced geotechnical apparatuses, soil improvement techniques, asphalt stability devices, and earthquake simulation systems. With a career grounded in scientific rigor and continuous innovation, Dr. Fattah remains a leading figure advancing geotechnical engineering research and practice in Iraq and beyond.

Profile: Scopus | Orcid 

Featured Publications 

Fattah, M. Y., et al. (2025). Predicting the factor of safety in embankments improved by geogrid-encased stone columns using various neural network architectures. Modeling Earth Systems and Environment.

Fattah, M. Y., et al. (2025). Distribution of contact pressure under rectangular shallow foundation subjected to different vibration modes. Earthquake and Structures.

Fattah, M. Y., et al. (2025). Enhancement of properties of soft clay via enzymatically induced calcite precipitation. Progress in Engineering Science.

Fattah, M. Y., et al. (2025). Recycling water treatment sludge for applications enhancing landfill liner performance. Journal of Material Cycles and Waste Management.

Fattah, M. Y., et al. (2025). Nanomaterial-enhanced stabilization of soft clayey soils: Optimal content, mechanical performance, and practical frameworks. International Journal of Basic and Applied Sciences.

Fattah, M. Y., et al. (2025). Reduction of under-road pavement sinkhole hazards by soil improvement. International Journal of GEOMATE.

Vinicius Schmitz Nunes | Biophysics | Editorial Board Member

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Prof. Dr. Vinicius Schmitz Nunes | Biophysics | Editorial Board Member 

Universidade Federal do Rio de Janeiro | Brazil

Vinicius Schmitz Nunes is a Visiting Professor at the Universidade Federal do Rio de Janeiro, with a B.S. in Biology and Physics from Universidade Federal de Juiz de Fora , a Ph.D. in Computational Biology from the same institution, and a post-doctoral fellowship in Biophysics conducted jointly at Universidade Federal do Triângulo Mineiro and the Laboratório Nacional de Computação Científica . He has specialized in the study of membrane proteins, particularly G-protein coupled receptors (GPCRs), using molecular dynamics simulations. In collaboration with Professor Charles Nicholas Serhan of Harvard Medical School, he has explored the activation mechanisms of inflammation-resolving lipid mediators (Specialized Pro-resolving Mediators, SPMs) and their GPCRs, applying molecular docking, virtual screening, and structure-based drug design methods. His key publications include Insights into the Activation Mechanism of the ALX/FPR2 Receptor ( J. Phys. Chem. Lett.) and studies on stereoisomers of D1 resolvins in J. Phys. Chem. B, as well as work on BLT1 activation by leukotriene B4 and resolvins (Computational Biology & Chemistry). According to his ResearchGate profile, he has authored at least 7 publications with ~47 citations.  Although precise bibliometric indicators such as his h-index in publicly verified databases, his contributions reflect a focused and growing body of work in computational biophysics and GPCR signaling, underscoring his expertise in molecular simulation and rational drug design.

Profile: Orcid 

Featured Publications 

Silva, F. F. S., Faria, R. R., Nunes, V. S., & Abrahão Júnior, O. (2025). Molecular dynamics simulations of omega-3 and omega-6 lipid mediators as partial agonists of PPARγ. Revista Virtual de Química.

Nunes, V. S., Serhan, C. N., Abrahão, O., Jr., & Rogério, A. P. (2025). ALX/FPR2 receptor activation by inflammatory (fMLFII) and pro-resolving (LXA4 and RvD3) agonists. ACS Physical Chemistry Au.

Nunes, V. S., Abrahão, O., Jr., Rogério, A. P., & Serhan, C. N. (2023). ALX/FPR2 activation by stereoisomers of D1 resolvins elucidating with molecular dynamics simulation. The Journal of Physical Chemistry B.

Schmitz Nunes, V., Rogério, A. P., & Abrahão, O., Jr. (2020). Insights into the activation mechanism of the ALX/FPR2 receptor. The Journal of Physical Chemistry Letters, 11, 8952–8957.

Ajay Maurya | Electrical Engineering | Editorial Board Member

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Assist. Prof. Dr. Ajay Maurya | Electrical Engineering | Editorial Board Member 

Presidency University, Bengaluru | India

Dr. Ajay Kumar Maurya is a dedicated electrical engineering academic and researcher with expertise spanning renewable energy, power converters, ocean wave energy converters (OWECs), off-grid systems, cybersecurity, machine learning, and artificial intelligence. He has contributed significantly to the advancement of hybrid and sustainable energy technologies, supported by a strong publication record comprising 17 documents, 39 citations, and an h-index of 4. Dr. Maurya holds a Ph.D. in Electrical Engineering from the Indian Institute of Technology Roorkee, where his doctoral work focused on solar–ocean wave hybrid energy systems, supported by advanced simulation and prototype validation. His academic career includes impactful teaching and research roles at Presidency University Bangalore, Medi-Caps University Indore, Banasthali Vidyapith Rajasthan, and Noida International University. He has also contributed to funded research, including work as a Junior Research Fellow on renewable-energy-based automatic generation control and an ongoing consultancy for developing a linear generator for ocean-wave-driven power generation. His technical strengths include MATLAB, OPAL-RT, dSPACE, microgrid emulators, and hands-on experience with power electronic hardware and PCB design. Dr. Maurya has participated extensively in national FDPs, workshops, and symposiums on artificial intelligence, robotics, modern power systems, and semiconductor technologies, reflecting his commitment to continuous professional development. He has also served as a reviewer for prestigious journals, including IEEE Transactions on Industrial Electronics and multiple IET publications. Beyond academics, he has engaged in leadership, event organization, sports, and community activities, demonstrating a well-rounded professional profile suitable for responsibilities such as an Editorial Board Member.

Profile: Scopus  

Featured Publications 

Maurya, A. K. (2025). A comparative study and performance evaluation of rearranged TCT PV arrangement under shading conditions. Energy.

Sandeep Jain | Engineering | Editorial Board Member

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Dr. Sandeep Jain | Engineering | Editorial Board Member 

Sungkyunkwan University, Republic of Korea | India

Dr. Sandeep Jain is an emerging researcher in metallurgical engineering and materials science, recognized for his strong academic record and diverse research experience across leading institutions in India and South Korea. His scholarly contributions reflect consistent growth, supported by 339 citations, 29 documents, and an h-index of 14, demonstrating both productivity and influence in the fields of alloy design, high-temperature materials, and computational materials engineering. His research spans multicomponent alloy development, high-entropy alloys, solidification simulation, and machine-learning-driven materials design, contributing to advanced structural and lightweight alloy systems. As a Postdoctoral Researcher at Sungkyunkwan University, he focuses on designing lightweight multicomponent alloys through machine-learning predictions of mechanical properties and optimizing injection-molding parameters using integrated simulation tools. His previous roles at IIT Delhi and IIT Indore strengthened his expertise in EBSD, XRD, creep behavior studies, solidification simulation, and alloy design through integrated computational approaches. With extensive teaching experience, he has assisted in courses on material science, solidification, computational modeling, mechanical workshop practices, and physical metallurgy, reflecting a strong commitment to academic mentorship. Dr. Jain has presented his work at multiple international conferences in India and abroad, and has actively contributed to academic workshops, cultural events, and technical festivals. His research interests include alloy development for high-strength and high-temperature applications, machine-learning-based materials design, high-entropy alloys, additive manufacturing, and advanced materials characterization. Driven by a passion for innovation and interdisciplinary collaboration, he aims to pursue impactful research as a Postdoctoral Fellow or Assistant Professor in a globally competitive academic environment.

Profile: Scopus  | Orcid

Featured Publications 

Jain, S., Jain, R., Saxena, N. V., Bux, S., Mourya, R. S., Lee, J., Han, H., Bhowmik, A., & Park, N. (2026). Predicting the magnetic behaviour of CoFeNi high entropy alloys: Reducing experimental dependency through machine learning approaches. Materials Letters.

Jain, S., Wagri, N. K., Arya, M., Bhowmik, A., & Park, N. (2025). Predicting the magnetic behaviour of homogenized CoCrFeNiAlx high entropy alloys at different aluminium content and temperatures: Reducing experimental dependency through machine learning approaches. Materials Chemistry and Physics.