Fareeha Fatima | Materials Science | Young Scientist Award

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Ms. Fareeha Fatima| Materials Science
|Young Scientist Award

 

Visiting Lecturer at The Islamia University of Bahawalpur,,Pakistan.

Fareeha Fatima is a passionate young physicist from Bahawalnagar, Pakistan, known for her academic excellence and early-career contributions to scientific research. With a strong foundation in theoretical and applied physics, she has pursued advanced studies at The Islamia University of Bahawalpur, where she recently completed her M.Phil with distinction. Her research in density functional theory and nanocomposites showcases her analytical depth and commitment to innovation. Fareeha also possesses practical teaching experience and a strong grasp of digital tools essential for modern scientific work. With exceptional communication and collaboration skills, she stands out as a motivated and promising young scientist. Her work ethic, enthusiasm, and dedication to knowledge advancement make her an ideal candidate for the Young Scientist Award.



🌍 Professional Profile:


Scopus


🏆 Suitability for the Young Scientist Award




 






































Fareeha Fatima exemplifies the spirit of the Young Scientist Award through her academic brilliance, research potential, and proactive engagement in the scientific community. Her M.Phil research applying advanced DFT techniques to novel LiZnZ compounds, and her M.Sc work on nanocomposite applications in theragnostics, reflect an impressive breadth and depth of understanding. At a young age, she has combined strong theoretical knowledge with practical teaching and laboratory skills. Her active participation in academic environments and strong interpersonal abilities further highlight her leadership qualities. Fareeha demonstrates innovation, discipline, and a forward-thinking approach that are critical for impactful scientific progress. She represents the future of physics research in Pakistan and is a deserving nominee for the Young Scientist Award.






































🎓 Education 


Fareeha Fatima has consistently excelled in her academic journey, marked by high achievements in physics. She completed her M.Phil in Physics (2022–2024) at The Islamia University of Bahawalpur with a CGPA of 3.88, conducting advanced theoretical research on LiZnZ (Z = Sb, Bi) compounds using GGA, WC, and mBJ methods. Her M.Sc in Physics (2019–2021), also from the same university with a CGPA of 3.68, involved exploring bismuth-based nanocomposites for theragnostic applications. Her B.Sc (2017–2019) established a strong scientific base. She previously completed her F.Sc (Pre-Engineering) and Matriculation with distinction. Her education reflects a consistent commitment to excellence and a growing focus on computational and materials science in the context of physics.


🏢 Work Experience 


Fareeha Fatima has gained valuable experience in both academic and educational settings. She served as a Teaching Assistant at The Islamia University of Bahawalpur, Bahawalnagar Campus (Jan–May 2023), where she assisted in delivering lectures, managing student queries, and supporting practical sessions. Earlier, she worked as a science teacher at First Moon Kindergarten School and Pioneer Science Academy (Nov 2021–May 2022), demonstrating her ability to communicate scientific concepts effectively at different academic levels. These roles have enhanced her capabilities in team collaboration, time management, and active listening—key skills for any researcher. Her hands-on exposure to both theoretical instruction and practical demonstration underlines her readiness for more advanced research roles and makes her a well-rounded young academic professional.


🏅 Awards and Honors 


Fareeha Fatima’s academic achievements speak volumes about her dedication and potential. While still early in her career, she has earned distinction through outstanding CGPAs in both her M.Phil (3.88) and M.Sc (3.68) programs. Her performance has consistently placed her among the top students in her department. She has been commended by faculty for her critical thinking, dedication to research, and strong academic ethics. Her work has attracted attention for its innovative approach to theoretical materials science and nanotechnology. Though formal national awards are still forthcoming, she is widely regarded by her peers and mentors as a future leader in physics research. Her academic accomplishments and potential make her a strong candidate for prestigious recognitions like the Young Scientist Award.


🔬 Research Focus 
































































Fareeha Fatima’s research centers on theoretical condensed matter physics, particularly using Density Functional Theory (DFT) to study the structural and electronic properties of emerging compounds. Her M.Phil thesis focuses on LiZnZ (Z = Sb, Bi) semiconducting materials analyzed using GGA, WC, and mBJ schemes, offering insights relevant to next-generation electronic applications. Earlier, her M.Sc research explored bismuth-based nanocomposites for dual-use in medical diagnostics and therapy—highlighting an interdisciplinary approach that blends physics with nanomedicine. Fareeha is also proficient in digital tools like Origin Lab and MS Office for data analysis and scientific reporting. Her focus on simulation-driven prediction of material behaviors aligns with global research trends, making her contributions timely, impactful, and promising for future scientific development.




























































































📊 Publication Top Notes:


    

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    Fatima, F., & Co-authors. (2024). Exploring the physical attributes of NaCaX (X = As, Sb) semiconductors by first principles calculations. The European Physical Journal Plus, W Category Journal.
    

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    Fatima, F., & Co-authors. (2024). Detailed DFT based exploration on spin-gapless features of IrCoNbX (X = Al, Ga, In) alloys. Journal of Magnetism and Magnetic Materials, W Category Journal.
    

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    Fatima, F., & Co-authors. (2024). Unveiling the robustness of half-metallicity under strain effects of CoVYZ (Z = Si, Ge, Sn) alloys. Journal of Magnetism and Magnetic Materials, W Category Journal.
    

    4. 

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    Fatima, F., & Co-authors. (2024). Comparative Density Functional Theory Based Study of LiZnZ (Z = Sb, Bi) Compounds via GGA, WC and mBJ Schemes. Indian Journal of Physics, W Category Journal.
    

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Xin  Bai | Mechanical Engineering | Best Researcher Award
			

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Assist. Prof. Dr. Xin Bai | Mechanical Engineering

|Best Researcher Award




Assist. Prof. Institute of Metal Research, Chinese Academy of Sciences, China.




 


Assoc. Prof. Dr. Xin Bai is a distinguished researcher at the Institute of Metal Research, Chinese Academy of Sciences, and a member of the Youth Innovation Promotion Association. Renowned for his pioneering work in fatigue fracture and structural reliability, Dr. Bai has significantly advanced methods for predicting fatigue performance from minimal experimental data. His research is both innovative and impactful, addressing critical needs in materials engineering and structural integrity. His commitment to developing cost-effective and efficient reliability assessment tools and software has garnered recognition across academia and industry. Dr. Bai’s sustained research excellence, leadership, and contributions to cutting-edge reliability science make him a compelling candidate for the Best Researcher Award.


🌍 Professional Profile:


Orcid


🏆 Suitability for the Best Researcher Award


 




















Assoc. Prof. Dr. Xin Bai is a distinguished researcher at the Institute of Metal Research, Chinese Academy of Sciences, and a member of the Youth Innovation Promotion Association. Renowned for his pioneering work in fatigue fracture and structural reliability, Dr. Bai has significantly advanced methods for predicting fatigue performance from minimal experimental data. His research is both innovative and impactful, addressing critical needs in materials engineering and structural integrity. His commitment to developing cost-effective and efficient reliability assessment tools and software has garnered recognition across academia and industry. Dr. Bai’s sustained research excellence, leadership, and contributions to cutting-edge reliability science make him a compelling candidate for the Best Researcher Award.




















🎓 Education 


Dr. Xin Bai received comprehensive training in materials science and engineering, culminating in his doctoral studies at the prestigious Institute of Metal Research, Chinese Academy of Sciences (CAS). His academic path reflects a strong foundation in mechanical behavior, fracture mechanics, and fatigue analysis. He has also engaged in postdoctoral research and advanced studies in failure physics, enhancing his expertise in structural reliability. His educational journey combined rigorous scientific coursework with hands-on research in laboratory environments, allowing him to acquire the necessary skills for leading complex experimental and theoretical investigations. His continued affiliation with CAS exemplifies the high caliber of his education and research orientation.


🏢 Work Experience 


Dr. Xin Bai serves as an Associate Professor at the Institute of Metal Research, Chinese Academy of Sciences, and is actively involved in advanced fatigue and reliability studies. His professional journey includes extensive experience in developing fatigue reliability methods based on physical failure mechanisms, small-scale testing, and predictive modeling. He has led multiple research projects focusing on translating laboratory-scale data into accurate, full-scale structural performance assessments. His work integrates mechanical engineering, software development, and statistical modeling to address real-world engineering problems. As a member of the Youth Innovation Promotion Association of CAS, he collaborates with leading scientists nationwide, contributing to China’s strategic goals in materials reliability and engineering safety.


🏅 Awards and Honors 


Dr. Xin Bai has been honored as a member of the Youth Innovation Promotion Association of the Chinese Academy of Sciences—an elite recognition awarded to promising young scientists. This distinction underscores his contributions to material reliability and fatigue research. He has received accolades for his innovative research methods and impactful findings, with invitations to present at top conferences and collaborations with national-level research teams. His software development efforts for fatigue prediction have been adopted in academic and industrial settings, further establishing his influence in the field. His work continues to earn national and institutional praise, positioning him among China’s rising stars in materials science and engineering.


🔬 Research Focus 
































































Dr. Xin Bai’s research centers on developing low-cost, high-efficiency methods for assessing fatigue reliability based on failure physics. His focus areas include: (1) structural fatigue reliability assessment using minimal testing data, enabling accurate predictions without extensive experimentation; (2) techniques for extrapolating full-scale component fatigue performance from small specimen data, significantly reducing testing time and cost; and (3) software development to support fatigue fracture analysis and reliability modeling. His interdisciplinary approach combines materials science, mechanical engineering, and data-driven modeling to advance the understanding and prediction of structural behavior under cyclic loads. His innovations have broad applications in aerospace, automotive, and infrastructure industries, helping ensure long-term structural safety and performance.




























































































📊 Publication Top Notes:


    

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    Song Zhou; Zhaoxing Qian; Xin Bai (2024). Static properties evaluation for laser deposition repaired TA15 components based on a constitutive model considering annealing heat treatment. Engineering Failure Analysis.
    

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    Xin Bai; Peng Zhang; Shuo Liu; Rui Liu; Bingfeng Zhao; Zhefeng Zhang (2023). Fatigue strength prediction of large-size component through size effect measurement and determination. International Journal of Fatigue.
    

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    X. Bai; P. Zhang; Q. Wang; R. Liu; Z. J. Zhang; Q. Q. Duan; E. N. Yang; H. Bo; Z. F. Zhang (2022). A New Dominance Distribution Method to Select Materials with Higher Fatigue Resistance under Property Scatter and Load Uncertainty. Journal of Materials Engineering and Performance.
    

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    Zhiming Xie; Peng Wang; Bin Wang; P. Zhang; Xin Bai; Zhefeng Zhang (2022). Effects of Heat Treatment on Fatigue Properties of Double Vacuum Smelting High‐Carbon Chromium‐Bearing Steel. Advanced Engineering Materials.
    

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    Shuo LIU; Bin Wang; P. Zhang; Xin Bai; Qiqiang Duan; Xuegang Wang; Zhefeng Zhang (2022). The Effect of Microstructure Inhomogeneity on Fatigue Property of EA4T Axle Steel. steel research international.
    

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    Bingfeng Zhao; Liyang Xie; Yu Zhang; Jungang Ren; Xin Bai; Bo Qin (2021). An improved dynamic load-strength interference model for the reliability analysis of aero-engine rotor blade system. Journal of Aerospace Engineering.
    

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    Lei Wang; Bingfeng Zhao; Lei Wang; Zhiyong Hu; Song Zhou; Xin Bai (2021). A new multiaxial fatigue life prediction model for aircraft aluminum alloy. International Journal of Fatigue.
    

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    Xin Bai; Peng Zhang; Enna Yang; Qiqiang Duan; Hao Bo; Zhefeng Zhang (2020). Dominance distributions for fatigue performance of materials and its application in material selection. Preprint on Authorea.
    

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    Xin Bai; Peng Zhang; Zhen‐jun Zhang; Rui Liu; Zhe‐feng Zhang (2019). New method for determining P‐S‐N curves in terms of equivalent fatigue lives. Fatigue & Fracture of Engineering Materials & Structures.
    

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    Xin Bai; Liyang Xie; Ruijin Zhang; Ruoyi Guan; Anshi Tong; Enjun Bai (2017). Measurement and estimation of probabilistic fatigue limits using Monte-Carlo simulations. International Journal of Fatigue.
    

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Prabhakar M.N. | Bio Composite | Best Researcher Award
			

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Dr. Prabhakar M.N. | Bio Composite | Best Researcher Award 


Changwon National University, South Korea


👨‍🎓Profiles



🎓 Early Academic Pursuits


Dr. M.N. Prabhakar began his academic journey at Sri Krishnadevaraya University, India, where he earned both a Bachelor of Science (B.Sc.) in Physical Sciences and a Master of Science (M.Sc.) in Polymer Science and Technology. He continued his academic excellence by completing his Doctor of Philosophy (Ph.D.) in Polymer Science and Technology at the same university. Additionally, he acquired a Bachelor of Education (B.Ed.) in Physical Sciences from Bangalore University, reflecting his passion for teaching alongside his research pursuits.


🏢 Professional Endeavors


Dr. Prabhakar's professional career spans diverse research and academic roles in multiple countries: Research Associate at the Bristol Composite Institute, University of Bristol, UK (2024–Present), Research Professor and Co-Supervisor at Changwon National University, South Korea, Post-Doctoral Fellow at Changwon National University, Earlier, he held roles in esteemed organizations such as the National Chemical Laboratory (NCL), India, and Indian Institute of Chemical Technology (IICT), India as a Project Assistant. His industrial experience includes working as a Junior Chemist in E-Pack Polymers (P) Limited.


🔬 Contributions and Research Focus


Dr. Prabhakar’s research centers on polymer composites, focusing on their mechanical performance, thermal properties, and flame-retardant capabilities. His groundbreaking work includes: Development of eco-starch plastic composites funded by a prestigious $122,861 grant from the National Research Foundation of South Korea, Advancements in flame-resistant vinyl ester composites that earned him the Outstanding Presentation Award at the International Symposium on Precision Engineering and Sustainable Manufacturing (PRESM) 2021, Expertise in state-of-the-art composite fabrication techniques, including injection molding, coaxial electrospinning, and various advanced microscopy methods.


🌍 Impact and Influence


Dr. Prabhakar has contributed significantly to academia and industry by mentoring 4 Ph.D. and 9 Master's students at Changwon National University. He has served as an evaluator for research competitions such as FONDECYT-Chile National Projects and collaborated internationally on several innovative projects. His efforts in organizing conferences, such as the 11th International Conference on Green Composites (ICGC-11), highlight his leadership in the global research community.


📚 Academic Citations and Recognition


Dr. Prabhakar’s prolific academic output includes numerous publications in high-impact journals like Industrial Crops and Products, Cellulose, and Polymer Composites. His extensive reviewing experience for technical journals underscores his influence in the field of polymer science. He has been honored with prestigious fellowships, including Junior and Senior Research Fellowships from the University Grants Commission (UGC), India, during his doctoral studies.


⚙️ Technical Skills


Dr. Prabhakar’s expertise spans a wide range of analytical and processing techniques, such as:Injection molding and Vacuum-assisted resin transfer molding (VARTM), Rheometry, Thermogravimetric Analysis (TGA), and Dynamic Mechanical Analysis (DMA), Advanced microscopy tools, including Scanning Electron Microscopy (SEM) and 3D Microscopy, Fire testing techniques like Cone Calorimetry and Pyrolysis Combustion Flow Calorimetry.


👨‍🏫 Teaching Experience


As a lecturer in the Department of Mechanical Engineering at Changwon National University, Dr. Prabhakar taught Polymer Processing Technology and Polymer Composites to Ph.D. and Master’s students. He also actively participated in graduate defense committees, further strengthening his commitment to education and mentorship.


🏅 Legacy and Future Contributions


Dr. Prabhakar’s work has left a lasting impact on the field of polymer science and green composites, fostering innovation in sustainable materials. Looking ahead, his role as a Research Associate at the Bristol Composite Institute positions him to drive cutting-edge advancements in composite engineering, bridging the gap between environmental sustainability and industrial applications.


🏆 Select Honors


Outstanding Presentation Award at PRESM 2021, Jeju, South Korea, Research Grant from the National Research Foundation of South Korea for eco-starch plastic composites, Junior and Senior Research Fellowships from UGC, India.


📖Notable Publications