Category: Uncategorized
Protected: Dhrubojyoti Roy, Physics, Innovative Researcher Award
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Protected: Rupali Chauhan, Public Health, Best Innovator Award
Mudda Nirish, Materials Science, Young Researcher Award
Dr. Mudda Nirish: Sr. R&D Engineer at Measure India Corporation Pvt. Ltd., India
Dr. Mudda Nirish is an accomplished researcher and Senior R&D Scientist with over 12 years of experience in mechanical engineering, specializing in Metal Additive Manufacturing (3D Printing), Smart Materials, and Robotics. He currently works at MIC Labs, Hyderabad, leading advanced R&D projects in testing and machine design. A recognized PhD supervisor and reviewer for multiple international journals, he is also involved in the development of cutting-edge technologies for aerospace and defense applications. Dr. Nirish is passionate about bridging the gap between technology and learning, particularly using innovative manufacturing techniques to drive sustainable solutions.
Online Profiles
Google Scholar Profile
Dr. Mudda Nirish has established a strong and growing research presence in the field of Metal Additive Manufacturing and Smart Materials. His publications have received 104 citations, reflecting the relevance and influence of his work within the global research community. He holds an h-index of 6, demonstrating consistent citation across multiple high-quality papers, and an i10-index of 2, highlighting his contribution to impactful, widely referenced publications since 2020.
Education
Dr. Nirish holds a Ph.D. in Metal Additive Manufacturing from the University College of Engineering (A), Osmania University, Hyderabad, India, where his dissertation focused on the mechanical properties and optimization of AlSi10Mg parts manufactured by Selective Laser Melting. He also completed a Post-Doctoral Fellowship in Smart Materials (NiTiNol-SMA) at BITS Pilani, Hyderabad, contributing to the development of novel adaptive mechanisms for defense applications. His academic background is complemented by an M.Tech in Machine Design from Jawaharlal Nehru Technological University, Hyderabad.
Research Focus
Dr. Nirish’s research primarily focuses on Metal Additive Manufacturing, Smart Materials (particularly Shape Memory Alloys), Robotics and Automation, and High Entropy Alloys. His work involves the development and optimization of advanced manufacturing techniques such as Selective Laser Melting (SLM), Wire Arc Additive Manufacturing (WAAM), and Cold Metal Transfer (CMT), aiming for applications in aerospace, defense, and high-performance industrial components. His recent research also explores Topology Optimization for designing lightweight, high-strength materials for complex structures.
Experience
With over 12 years in academia and industry, Dr. Nirish’s professional journey includes roles as a Senior R&D Scientist/Engineer at MIC Labs (2024-present), a Post-Doctoral Researcher at BITS Pilani (2022-2024), and a Ph.D. Researcher at Osmania University (2018-2022). Prior to his research roles, he served as an Assistant Professor and Teaching Assistant at Aurora’s Scientific Technological & Research Academy, where he mentored students and contributed to curriculum development. His industry experience spans design, simulation, and testing of high-performance materials and systems.
Research Timeline & Activities
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2018–2022: Completed Ph.D. in Metal Additive Manufacturing at Osmania University, focusing on 3D printing of AlSi10Mg alloy and its mechanical performance.
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2022–2024: Conducted Post-Doctoral research on Smart Materials (NiTiNol-SMA) under the supervision of Prof. Amit Kumar Gupta at BITS Pilani.
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2024–Present: Senior R&D Scientist at MIC Labs, Hyderabad, working on machine design and testing innovations.
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In addition to his research projects, Dr. Nirish has attended numerous international workshops on 3D printing, robotics, and materials processing, contributing to his ongoing professional development.
Awards & Honors
Dr. Nirish has received several accolades for his research excellence and contributions to the field of mechanical engineering. He has been recognized as a PhD Supervisor for mechanical engineering candidates at Bharath Institute of Higher Education and Research. He was awarded for his work in Metal Additive Manufacturing and Robotics in various academic and industry forums. His research papers have been published in top-tier journals, and he serves as a peer reviewer for multiple renowned international journals.
Top Noted Publications
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Suitability of Metal Additive Manufacturing Processes for Part Topology Optimization – A Comparative Study
M Nirish, R Rajendra
Materials Today: Proceedings 27 (2), 1601-1607, 2020
Citations: 38
This study offers a comparative analysis of various metal additive manufacturing (AM) processes for optimizing part topology, specifically focusing on their suitability for high-performance applications. -
Optimization of Process Parameter and Additive Simulation for Fatigue Strength Development by Selective Laser Melting of AlSi10Mg Alloy
M Nirish, R Rajendra
International Journal of Mechanical Engineering 7 (2), 3795-3802, 2022
Citations: 15
This paper explores the optimization of process parameters and simulation strategies for enhancing the fatigue strength of AlSi10Mg alloy fabricated via selective laser melting. -
Additive Simulation and Process Parameter Optimization for Wear Characterization Development by Selective Laser Melting of AlSi10Mg Alloy
M Nirish, R Rajendra
Journal of Characterization 2 (2), 103-116, 2022
Citations: 9
The study investigates the effect of process parameter optimization and additive simulations on improving the wear characteristics of AlSi10Mg alloy parts manufactured using selective laser melting. -
Heat Treatment Effect on the Mechanical Properties of AlSi10Mg Produced by Selective Laser Melting
M Nirish, R Rajendra
Journal of Mechanical Engineering Research and Developments 45 (2), 19-28, 2022
Citations: 9
This research focuses on the heat treatment effects on the mechanical properties of AlSi10Mg alloy parts produced via selective laser melting, offering valuable insights into material performance enhancement. -
Effect of Heat Treatment on Wear Characterization of AlSi10Mg Alloy Manufactured by Selective Laser Melting
M Nirish, R Rajendra
Journal of Mechanical Engineering Research and Developments 45 (2), 10-18, 2022
Citations: 9
This paper delves into the influence of heat treatment on the wear resistance of AlSi10Mg alloy manufactured by selective laser melting, offering a deeper understanding of material behavior under different thermal conditions.
ChatGPT said:
Strength for the Young Researcher Award:
Dr. Mudda Nirish’s contributions to the field of Mechanical Engineering, particularly in Metal Additive Manufacturing, Smart Materials, and Robotics, have positioned him as a leading young researcher in his field. The following five topics represent the core areas where his innovative work has made a significant impact:
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Metal Additive Manufacturing and Topology Optimization:
Dr. Nirish’s groundbreaking research in metal additive manufacturing (3D printing) and topology optimization, particularly in the context of high-performance applications, has helped shape the future of lightweight, complex, and high-strength material structures. His work on the suitability of various AM processes for optimizing part topology, such as Selective Laser Melting (SLM) and Wire Arc Additive Manufacturing (WAAM), demonstrates his ability to drive innovation in manufacturing techniques. -
Optimization of Process Parameters for Fatigue and Wear Resistance:
His research on the optimization of process parameters for Selective Laser Melting (SLM) of AlSi10Mg alloy has had a lasting impact on improving the fatigue strength and wear resistance of 3D-printed materials. His findings are crucial for industries like aerospace and automotive, where material performance under repeated stress is essential for long-term durability. -
Development of Smart Materials (NiTiNol-SMA) for Adaptive Systems:
Dr. Nirish’s post-doctoral research on Smart Materials, particularly NiTiNol Shape Memory Alloys (SMAs), has led to the development of adaptive mechanisms for defense applications. His work has focused on improving the mechanical properties and design optimization of these materials to create more efficient and reliable systems for aerospace and robotics. -
Heat Treatment and Material Property Enhancement:
His research on the effects of heat treatment on the mechanical properties and wear behavior of AlSi10Mg alloy fabricated via Selective Laser Melting has deepened the understanding of material behavior in additive manufacturing processes. This work has opened new avenues for improving the mechanical performance of 3D-printed metals in industrial applications. -
Leadership in R&D and Industry-Academia Collaboration:
As a Senior R&D Scientist at MIC Labs and a PhD supervisor at Bharath Institute of Higher Education, Dr. Nirish has played a key role in bridging the gap between academia and industry. His leadership in advanced R&D projects related to machine design and testing, as well as his active role in mentoring young researchers, highlights his dedication to fostering the next generation of engineers and researchers.
Maria Bashir, Medicine, Innovative Researcher Award
Dr. Maria Bashir: Senior Resident at Government Medical College Srinagar, India
Dr. Maria Bashir is a dedicated and accomplished medical professional specializing in Physiology, with a passion for advancing medical research and education. After completing her MBBS from Holy Family Red Crescent Medical College in Dhaka, Bangladesh, she pursued an MD in Physiology from Government Medical College Srinagar, where she deepened her understanding of human physiology and its application in clinical medicine. Currently serving as a Senior Resident in the Department of Physiology at GMC Srinagar, Dr. Bashir is committed to both her clinical duties and her research work. She has presented her research on topics such as metabolic syndrome, oxidative stress, and gastrointestinal diseases at prestigious national and international conferences. With a deep interest in integrating medical research into clinical practice, Dr. Bashir continues to contribute to the scientific community with her findings aimed at improving patient care and disease management.
Online Profiles
Education
Dr. Maria Bashir’s educational journey has been a blend of rigorous clinical training and intensive research-focused study. She completed her MBBS at Holy Family Red Crescent Medical College in Dhaka, Bangladesh, between 2008 and 2013. This program provided her with a solid foundation in general medicine, after which she further specialized in Physiology by pursuing her MD at Government Medical College Srinagar from 2020 to 2023. In addition to her medical degrees, Dr. Bashir has earned a Basic Course in Biomedical Research (BCBR) certification in March 2022, which equipped her with essential skills in research methodology and data analysis. Her educational path has enabled her to blend clinical knowledge with academic rigor, ensuring that her approach to healthcare and research is both practical and evidence-based.
Research Focus
Dr. Bashir’s research interests lie at the intersection of clinical physiology, molecular biology, and medical toxicology. Her primary focus includes studying the genetic factors influencing common dermatological conditions like acne vulgaris, as well as investigating the role of pro-inflammatory cytokines and oxidative stress in disease progression. She has also conducted extensive research on the prevalence of metabolic syndrome, particularly among medical students in the Kashmir Valley, shedding light on lifestyle and genetic factors affecting health. Dr. Bashir is deeply interested in how environmental toxins, such as organophosphorus compounds, affect human health, particularly in relation to oxidative stress. Additionally, her work on the correlation between serum vitamin D3 levels and gastrointestinal disorders, such as irritable bowel syndrome, aims to address emerging health concerns in the population. Overall, her research is driven by a desire to understand the underlying mechanisms of diseases to improve diagnostics and therapeutic strategies.
Experience
Dr. Bashir’s professional experience spans across several prestigious institutions, where she has acquired diverse clinical and academic expertise. She began her career as a Junior Resident in the Department of Gynecology and Obstetrics at SKIMS Medical College, Bemina, Srinagar in 2016, where she gained valuable hands-on experience in women’s health. Later, she transitioned to the Department of Radiodiagnosis at the same institution, broadening her exposure to medical imaging techniques. In 2019, she served as a Demonstrator in the Department of Forensic Medicine at SKIMS Medical College, where she taught undergraduate students and contributed to forensic research. After completing her MD in Physiology, Dr. Bashir continued her clinical training as a Senior Resident in the Department of Physiology at GMC Srinagar, where she currently contributes to both the academic curriculum and ongoing research. Throughout her career, Dr. Bashir has balanced clinical duties with a focus on research, actively participating in and leading studies that explore various medical conditions and treatments.
Research Timeline & Activities
Dr. Bashir’s research activities span across multiple years and have consistently contributed to the scientific community. Her research journey began during her undergraduate medical education and continued through her MD program. In 2021, she conducted a cross-sectional study on the prevalence of metabolic syndrome among first-year medical students in Kashmir, which was later presented at the 7th Annual National Conference of Association of Physiologists of India (ASSOPICON-2021). The study highlighted the role of lifestyle and genetics in the early onset of metabolic syndrome in this population. She further expanded her research into toxicology, focusing on the relationship between oxidative stress and the severity of acute organophosphorus poisoning. Dr. Bashir’s research on vitamin D3 levels in patients with irritable bowel syndrome was published in 2021 and explored the complex relationship between micronutrient deficiencies and gastrointestinal disorders. In 2023, she participated in the Uro-Surg Urology and Surgery Twin Conference in New Delhi, presenting her findings on Noonan Syndrome and the multidisciplinary approach required for its management. Dr. Bashir is actively involved in several ongoing research projects, ranging from genetic predisposition studies to large-scale clinical trials assessing the impact of various treatments on chronic health conditions.
Awards & Honors
Dr. Maria Bashir has received numerous accolades for her contributions to medical research and education. Among her most notable achievements is the Best Oral Presentation Award at the PREPARE 2021 conference, organized by Sri Ramachandra Institute of Higher Education and Research in Chennai, where her research on vitamin D3 levels in patients with irritable bowel syndrome garnered widespread recognition. Her ability to present complex scientific concepts in an accessible and engaging manner has been lauded by peers and mentors alike. In addition to the oral presentation award, Dr. Bashir’s research has been acknowledged in various academic and clinical circles, earning her the respect of her colleagues and a solid reputation in the field of Physiology and medical education.
Top Noted Publication
Dr. Bashir’s MD thesis titled “Evaluation of Genetic Predisposition, Levels of Pro-inflammatory Cytokines, and Sebum Excretion Rate in Acne Vulgaris Patients of Kashmiri Origin” stands as one of her most significant contributions to medical research. This study, which explored genetic and environmental factors influencing acne development in a specific demographic, was published in a peer-reviewed journal and has been cited in numerous studies. Another top publication is “Buzz Session as an Active Learning Method in Medical Undergraduate Physiology Teaching” (2023), co-authored with colleagues, which examined the effectiveness of active learning techniques in enhancing student engagement and learning outcomes in Physiology. Her research on the correlation between oxidative stress and organophosphorus poisoning has also been influential in the field of toxicology, contributing to a better understanding of the pathophysiological mechanisms behind acute poisoning cases. Dr. Bashir’s publications reflect her dedication to expanding knowledge in medical research, particularly in areas related to disease mechanisms, toxicology, and medical education.
Publication Overview
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Title: Buzz Session as an Active Learning Method in Medical Undergraduate Physiology Teaching—An Institutional-Based Study
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Journal: Medical Science Educator
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Contributors:
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Suhail Ahmad Gilkar (Author)
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Iram Jaan (Author)
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Shayees Arawa (Author)
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Mah para Nyiem (Author)
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Maria Bashir (Author)
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Published: September 6, 2023
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Research Focus: This study explored the effectiveness of Buzz Sessions, an active learning technique, in enhancing undergraduate medical students’ engagement and learning outcomes in Physiology teaching. The research was conducted at an institutional level, offering insights into how active learning can be integrated into medical education.
Significance:
The paper highlights the importance of interactive and student-centered teaching methodologies, like Buzz Sessions, which encourage peer-to-peer learning and foster critical thinking. The findings could contribute to modernizing the way Physiology and other medical subjects are taught in undergraduate courses, making learning more dynamic and student-oriented.
Strength for the Innovative Researcher Award:
1. Integration of Active Learning in Medical Education
Dr. Bashir’s pioneering work in integrating Buzz Sessions as an active learning method in medical undergraduate Physiology teaching has garnered significant attention. This innovative approach fosters a more interactive, student-centered learning environment, moving away from traditional, passive lecture formats. Her research shows that such active learning techniques increase student engagement, improve critical thinking, and enhance the overall understanding of complex physiological concepts. By presenting this method in her publication, Dr. Bashir has provided a valuable model for educators to incorporate into their teaching practices. This aligns with her passion for transforming medical education to better meet the needs of future healthcare professionals.
2. Focus on Translational Research in Physiology
Dr. Bashir’s research demonstrates her commitment to translating basic scientific knowledge into clinical applications. Her MD thesis on the genetic predisposition, pro-inflammatory cytokine levels, and sebum excretion in acne vulgaris patients of Kashmiri origin is a prime example of how she links molecular and clinical research. By focusing on genetic factors and cytokine activity, she has provided insights into how these factors may influence dermatological conditions, which could eventually lead to better diagnostic and therapeutic strategies for acne vulgaris. This approach bridges the gap between basic science and clinical medicine, reflecting her ability to conduct impactful, patient-centered research.
3. Innovative Studies on Toxicology and Disease Mechanisms
Dr. Bashir’s research on the correlation between oxidative stress and acute organophosphorus poisoning stands out as an innovative exploration in medical toxicology. Through her work, she has identified the underlying pathophysiological mechanisms of organophosphorus poisoning, particularly the role oxidative stress plays in disease severity. This research not only provides deeper insights into poisoning mechanisms but also has the potential to guide clinical interventions and improve patient outcomes in poisoning cases. Dr. Bashir’s work in this area reflects her innovative approach to toxicology research, contributing to the understanding of environmental health risks.
4. Multidisciplinary Research Approach
Dr. Bashir’s interest in a multidisciplinary research approach is evident in her participation in the Uro-Surg Urology and Surgery Twin Conference, where she presented on Noonan Syndrome and the importance of a multidisciplinary management approach. This type of research, which combines knowledge from genetics, endocrinology, cardiology, and surgery, showcases her ability to address complex health issues through a collaborative and integrative perspective. Her work emphasizes the importance of treating patients from a holistic perspective, which could significantly improve patient care in various clinical settings.
5. Promoting Student Wellness through Metabolic Research
Dr. Bashir’s research into the prevalence of metabolic syndrome among first-year medical students in Kashmir exemplifies her forward-thinking approach to public health. Her findings, which suggest that lifestyle and genetic factors significantly contribute to metabolic syndrome, aim to improve early health education and lifestyle interventions for young adults. By targeting medical students, Dr. Bashir has emphasized the importance of health promotion within the medical community itself, making her research not just relevant for public health at large but also for medical practitioners who will go on to shape healthcare practices. This research highlights her proactive approach to tackling emerging health issues before they escalate.
Eda Nur Saruhan, Artificial Intelligence, Best Innovator Award
Dr. Eda Nur Saruhan: Researcher at Koç University, Turkey
Eda Nur Saruhan is a dedicated researcher with a strong interdisciplinary background, combining mechatronic engineering principles with artificial intelligence to innovate in the fields of environmental science and health. She is currently a PhD candidate at Koç University’s Computer Science and Engineering department, where her work focuses on the application of machine learning and data science techniques to solve complex biomechanical and environmental challenges. Eda is passionate about leveraging AI to create sustainable and impactful solutions, bridging engineering and public health domains.
Online Profiles
As of now, Eda Nur Saruhan has received a total of 24 citations, reflecting the growing impact of her research in the scientific community. She holds an h-index of 2, indicating that at least two of her publications have been cited at least twice, and an i10-index of 2, representing two papers that have received ten or more citations. These metrics demonstrate her contributions to interdisciplinary research at the intersection of artificial intelligence, health, and environmental science.
Education
Eda completed her Bachelor’s degree in Mechatronic Engineering at Yıldız Technical University, graduating in June 2021 with a solid foundation in robotics, control systems, and automation. Currently, she is pursuing her PhD in Computer Science and Engineering at Koç University, where she focuses on integrating AI with environmental and biomedical applications. Additionally, she has enhanced her expertise through the prestigious UNDP SDG AI Lab Data Science Fellowship, which emphasizes data-driven solutions aligned with sustainable development goals.
Research Focus
Her research explores the intersection of artificial intelligence, environmental science, and health, aiming to develop novel AI-based models for forecasting environmental phenomena and analyzing complex biomechanical systems. She investigates scalable AI approaches for air quality prediction, 3D fiber orientation mapping in cardiac tissues, and optical flow methods for fluid dynamics, with an overarching goal of contributing to public health and sustainable environmental monitoring.
Experience
Eda has been a researcher at Koç University for three years, where she has been involved in multiple interdisciplinary projects. Her experience spans AI-driven air quality modeling, microrobot motion analysis, and advanced imaging techniques. Throughout her career, she has collaborated with experts across engineering and biomedical fields, authored several high-impact publications, and presented findings at international conferences, demonstrating strong project leadership and scientific communication skills.
Research Timeline & Activities
Since 2019, Eda’s research trajectory has included working on cutting-edge projects at Koç University involving fluid dynamics measurement using optical flow methods, microrobot control under laminar flow, and AI-based cell classification techniques. She has actively contributed to conferences such as the International Symposium on Flow Visualization and the Manipulation, Automation, and Robotics at Small Scales conference. Her work has progressively advanced from foundational experimental studies to the application of machine learning models in environmental health contexts.
Awards & Honors
Eda’s contributions to research have been recognized with the UNDP SDG AI Lab Data Science Fellowship, highlighting her commitment to sustainable and impactful AI solutions. She has also co-authored influential papers published in reputed journals like IEEE/ASME Transactions on Mechatronics and Cardiovascular Engineering and Technology, reflecting the quality and relevance of her research output.
Recent Publication
One of her notable recent publications is “Scalable AI-Driven Air Quality Forecasting and Classification for Public Health Applications,” published in Discover Atmosphere. This work presents innovative machine learning frameworks designed to provide accurate and scalable air quality forecasts, which are critical for public health decision-making and environmental policy planning. The paper exemplifies her commitment to applying AI for real-world societal benefits.
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S. Donmazov, E.N. Saruhan, K. Pekkan, S. Piskin
Review of Machine Learning Techniques in Soft Tissue Biomechanics and Biomaterials
Cardiovascular Engineering and Technology, 15(5), pp. 522–549, 2024.
Citations: 12 -
A.A. Demircali, R. Varol, G. Aydemir, E.N. Saruhan, K. Erkan, H. Uvet
Longitudinal Motion Modeling and Experimental Verification of a Microrobot Subject to Liquid Laminar Flow
IEEE/ASME Transactions on Mechatronics, 26(6), pp. 2956–2966, 2021.
Citations: 12 -
E.N. Saruhan, H. Ozturk, D. Kul, B. Sevgin, M.N. Coban, K. Pekkan
Learning-Enhanced 3D Fiber Orientation Mapping in Thick Cardiac Tissues
Biomedical Optics Express, 16(8), pp. 3315–3336, 2025. -
M. Serdar, E.N. Saruhan, K. Pekkan
Enhancing Particle Image Velocimetry with RAFT and Optical Flow for High-Fidelity Cardiovascular Flow Measurements
Proceedings of the 21st International Symposium on Flow Visualization (ISFV21), 2025. -
E.N. Saruhan, M. Serdar, K. Pekkan
Optical Flow Methods for High-Resolution OCT Analysis of Complex Hemodynamics
21st International Symposium on Flow Visualization (ISFV21), 2025. -
T. Duruöz, A. Madayen, E.N. Saruhan, R.H. Zarnaghi, H.H. Gezer, I. Aktas, et al.
ABS0156 AI-Based Classification of Spondyloarthritides Using the Turkish Patients of ASAS perSpA Dataset: Insights on Clinical Features and Patient Outcomes
Annals of the Rheumatic Diseases, 84, pp. 2108–2109, 2025.
Chunyi Fang, Public Health, Best Researcher Award
Dr. Chunyi Fang: Physical therapist at Zhejiang Provincial People’s Hospital, China
Dr. Chunyi Fang is a medical doctor and clinical researcher with a strong academic background in rehabilitation therapy and pediatric exercise science. She is affiliated with the Center for Rehabilitation Medicine at Zhejiang Provincial People’s Hospital, one of China’s leading centers for rehabilitation research. Her work primarily focuses on pediatric physical activity, exploring how movement behaviors influence physical fitness and health outcomes in preschool-aged children. With both domestic and international publications, Dr. Fang has developed a reputation for combining clinical insight with rigorous data analysis, contributing to early childhood health promotion and rehabilitation strategies.
Online Profiles
Education
Dr. Fang earned her M.D. in 2017 from Shanghai University of Sport, where she conducted original research on how daily step counts influence cardiovascular and muscular fitness in preschoolers—an area that laid the groundwork for her later publications. Prior to that, she completed her Bachelor of Science degree in Rehabilitation Therapy at North China University of Science and Technology in 2012. Her academic path reflects a steady focus on clinical rehabilitation and the development of functional health in children, combining both practical and scientific approaches.
Research Focus
Her research concentrates on pediatric physical fitness, particularly examining how different types and intensities of physical activity and sedentary behavior affect developmental health outcomes. Using advanced tools such as accelerometers, she quantifies daily activity levels and links them to cardiovascular, neuromuscular, and motor skill indicators in young children. Dr. Fang’s work is especially known for addressing dose-response relationships, investigating how varying movement patterns correspond to health benchmarks in preschool-aged populations. She also contributes to cluster-based analyses and early intervention planning.
Experience
Dr. Fang currently works at the Rehabilitation & Sports Medicine Research Institute of Zhejiang Province, where she plays a key role in research design, data collection, and clinical application. She has contributed to both observational studies and experimental trials involving child development, physical activity measurement, and rehabilitation protocols. She also assists in training clinical staff in pediatric assessments and collaborates with physicians, therapists, and data scientists in large-scale health studies. Her role bridges the gap between academic theory and hands-on clinical practice.
Research Timeline
Beginning in 2017, Dr. Fang’s early work investigated fundamental relationships between movement and fitness in young children. Her first notable international publication appeared in the Journal of Clinical Medicine in 2020, followed by co-authored studies in Frontiers in Pediatrics and Scientific Reports. From 2020 to 2025, she expanded her research methods to include wearable technology, sedentary behavior modeling, and cross-sectional studies with large preschool cohorts. She continues to participate in national and international collaborations while mentoring new researchers in pediatric rehabilitation.
Awards & Honors
While specific awards are not listed, Dr. Fang’s research has received recognition through publication in high-impact journals and citation by leading scholars in physical education and pediatric medicine. Her work was selected for publication in Scientific Reports and Frontiers in Human Neuroscience, reflecting both methodological quality and relevance to public health. She has also received internal commendations from Zhejiang Provincial People’s Hospital for her contributions to evidence-based rehabilitation practice and collaborative research excellence.
Top-Noted Publication
Her most cited and prominent paper is: Fang C, Li L, Jin Z, He C, Liang F, Ye X, Lu Y, Quan M. (2025). Accelerometer-Based Independent and Combined Associations of Physical Activity and Sedentary Time on Physical Fitness in Preschool Children: A Cross-Sectional Study. Published in Scientific Reports, this study offers a comprehensive look at how objectively measured physical activity and inactivity are related to fitness outcomes in early childhood. It emphasizes the importance of reducing sedentary time and encouraging moderate-to-vigorous activity for promoting children’s health.
DOI: https://doi.org/10.1038/s41598-025-00626-x
Fang C, Li L, Jin Z, He C, Liang F, Ye X, Lu Y, Quan M. (2025). Accelerometer-Based Independent and Combined Associations of Physical Activity and Sedentary Time on Physical Fitness in Preschool Children: A Cross-Sectional Study. Scientific Reports, 15(1):26691.
DOI: 10.1038/s41598-025-00626-x
This study explored the independent and joint effects of physical activity and sedentary time on health-related fitness using objective accelerometer data in preschoolers.
Fang C, Zhang J, Zhou T, Li L, Lu Y, Gao Z, Quan M. (2020). Associations between Daily Step Counts and Physical Fitness in Preschool Children. Journal of Clinical Medicine, 9(1):163.
DOI: 10.3390/jcm9010163
Among the first studies to examine the dose-response association between step count and physical fitness in children aged 3–6, this article provides foundational evidence supporting active lifestyle promotion in early childhood.
Liu J, Li Y, Zhou T, Lu Y, Sang M, Li L, Fang C, Hu W, Sun X, Quan M. (2022). Relationship Between Gross Motor Skills and Inhibitory Control in Preschool Children: A Pilot Study. Frontiers in Human Neuroscience, 16:848230.
DOI: 10.3389/fnhum.2022.848230
This pilot study evaluated the cognitive-motor link in preschoolers, finding significant associations between gross motor competence and inhibitory control, a critical executive function.
Lu Y, Li Y, Zhou T, Sang M, Li L, Fang C, Hu W, Quan M. (2022). The Association of Different Sedentary Patterns and Health-Related Physical Fitness in Pre-schoolers. Frontiers in Pediatrics, 9:796417.
DOI: 10.3389/fped.2021.796417
This paper examined how various sedentary behavior patterns relate to fitness metrics in preschool children, revealing that prolonged sedentary bouts are negatively associated with cardiovascular and muscular fitness.
Mohammad Hassan Hadizadeh, Environmental Science, Distinguished Researcher Award
Doctorate Mohammad Hassan Hadizadeh: Researcher at Shandong University, China
Dr. Mohammad Hassan Hadizadeh is an experienced physical and atmospheric chemist whose interdisciplinary research spans computational chemistry, surface interactions, and environmental pollutant degradation. With a strong foundation in density functional theory (DFT) and ab initio molecular dynamics (AIMD), he has contributed significantly to understanding the behavior of radicals, especially hydroxyl (·OH), at gas-liquid interfaces and in nanodroplets. Over the past decade, Dr. Hadizadeh has authored more than 25 peer-reviewed publications and collaborated with leading researchers across China, Europe, and the Middle East. His current role as a National Foreign Expert at Shandong University reflects his leadership in environmental reaction modeling and his ability to bridge theory with experimental validation.
Online Profiles
As of 2025, Dr. Mohammad Hassan Hadizadeh has accumulated 190 citations, reflecting the growing recognition and impact of his research in the fields of atmospheric and environmental chemistry. He holds an h-index of 8, indicating that at least eight of his publications have each received eight or more citations, and an i10-index of 6, representing six publications with ten or more citations. Notably, nearly all citations have been acquired since 2020, demonstrating the recent and ongoing relevance of his contributions to computational chemistry, pollutant degradation, and molecular dynamics studies.
Education
Dr. Hadizadeh completed his Ph.D. in Physical Chemistry from the University of Science and Technology of China (USTC) in 2020, where he focused on atmospheric chemistry and interfacial radical dynamics. He previously obtained his M.Sc. in Physical Chemistry from Kashan University in 2012, with a thesis focused on corrosion inhibition and quantum chemical modeling. His foundational B.Sc. in Chemistry from Isfahan University of Technology (2009) included broad training in analytical, inorganic, and computational chemistry. This solid academic background provided him with the analytical tools, theoretical knowledge, and computational skills that underpin his current research into molecular-level environmental processes.
Research Focus
Dr. Hadizadeh’s research is focused on uncovering the molecular mechanisms governing chemical transformations in atmospheric and environmental systems. He investigates how radicals such as OH, NO₃, and ClO behave at air–water interfaces and within nanodroplets, using DFT and AIMD simulations to provide atomic-level insights into degradation, adsorption, and reaction pathways. His work also includes modeling pollutant interactions with nanostructured materials such as AlN and boron nitride nanocones, advancing the development of materials for environmental remediation. He is particularly interested in how temperature, humidity, and surface properties influence chemical reactivity—bridging the gap between laboratory conditions and real-world atmospheric chemistry.
Experience
Throughout his academic career, Dr. Hadizadeh has held a variety of teaching and research positions that reflect both breadth and depth in the chemical sciences. He began his professional journey teaching chemistry at Azad University (2012–2015), then transitioned to international education by teaching A-Level science at Hefei University of Technology (2020–2021). From 2021 to 2024, he served as a Postdoctoral Researcher at Shandong University’s Environment Research Institute, contributing to several high-impact NSFC-funded projects. In 2024, he was a visiting scholar at the University of Copenhagen and the Research Institute of Petroleum Industry (RIPI), deepening his collaborations in Europe and Iran. As of 2025, he holds the title of National Foreign Expert at Shandong University.
Research Timeline
Dr. Hadizadeh’s early research (2010–2014) centered on corrosion inhibition and gas adsorption on nanostructures, combining experimental techniques with theoretical modeling. His Ph.D. studies (2015–2020) marked a significant shift to radical behavior in aqueous systems, using AIMD to simulate hydroxyl radical mobility and interactions. From 2021 onward, his postdoctoral and expert-level work expanded into environmental degradation pathways, gas-phase interface chemistry, and pollutant breakdown at the molecular level. By integrating simulation with environmental data, his recent research emphasizes real-world applications, including atmospheric modeling, water purification, and sustainable material design.
Awards & Honors
Dr. Hadizadeh has received multiple honors recognizing his academic excellence and international contributions. He was awarded a full scholarship by the China Scholarship Council (CSC) for his doctoral studies and was selected for China’s prestigious National Foreign Expert Program in 2025. He has led and participated in projects funded by the National Natural Science Foundation of China (NSFC), underscoring his value as a principal investigator and team researcher. His contributions as a reviewer for journals under RSC and Elsevier also reflect his peer recognition. He holds a TESOL certification from Westminster College London and has completed a professional development course at the University of Oxford on effective learning methods.
Recent Publications
Among Dr. Hadizadeh’s most highly regarded publications is his 2021 article in Physical Chemistry Chemical Physics, titled “The mobility and solvation structure of a hydroxyl radical in a water nanodroplet: A Born–Oppenheimer molecular dynamics study.” This work was one of the earliest to combine AIMD with interfacial radical chemistry, providing deep insights into how ·OH behaves in confined aqueous environments. The findings from this study have been frequently cited in subsequent research on radical-mediated oxidation and environmental chemistry. The paper stands as a benchmark in his research trajectory, setting the stage for his continued work in modeling radical reactions at the nano- and meso-scale levels under realistic environmental conditions.
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Hu, Y., Zhou, Y., Hadizadeh, M.H., Xu, F.
Unveiling the Dynamics of NO₃ at the Air–Water Interface and in Bulk Water: A Comparative Study with Cl and ClO
* Molecules*, 30(8), 1724 (2025).
[DOI Link Pending]
→ Comparative molecular study of NO₃, Cl, and ClO radicals in different aqueous environments using quantum chemical simulations. -
Zheng, S., Zhou, Y., Zhang, Q., Hadizadeh, M.H., Wang, X., Hu, Y., Sun, Y., Xu, F., et al.
Mechanism and Direct Kinetic Study on the Homogeneous Gas-Phase Formation of 1,2,3,4,5,6,7-HpCN from the Self-Condensation of 2,3,4,5-TeCPRs and Cross-Condensation of PCPRs
* Journal of Environmental Chemical Engineering*, 12(2), 112341 (2024).
https://doi.org/10.1016/j.jece.2023.112341
→ Investigates the kinetic and mechanistic pathways for toxic polychlorinated naphthalenes in the atmosphere via theoretical modeling. -
Hadizadeh, M.H., Xu, F.
Molecular Insights into Thermally Induced Behavior of Hydroxyl Radicals at Water Nanodroplet Interfaces
* Scientific Reports*, 15(1), 26219 (2025).
[DOI Link Pending]
→ Ab initio molecular dynamics study exploring how temperature influences radical distribution and reactivity at the gas–water interface. -
Pourhashem, S., Hadizadeh, M.H., Ji, X., Zhou, Z., Duan, J., Ci, X., Lu, H., Hou, B.
Recognizing the Function of Different Silane Coupling Agents on MXene Adsorption/Barrier Behavior in Solvent-Borne Epoxy Coatings: Experimental Studies, Density Functional Theory, and Molecular Dynamics Simulations
* Progress in Organic Coatings*, 204, 108453 (2025).
https://doi.org/10.1016/j.porgcoat.2024.108453
→ Integrates simulation and experimental work to understand surface modifications in high-performance anti-corrosion coatings. -
Pourhashem, S., Hadizadeh, M.H., Ji, X., Zhou, Z., Duan, J., Ci, X., Lu, H., Hou, B.
Corrigendum to: Recognizing the Function of Different Silane Coupling Agents on MXene Adsorption/Barrier Behavior in Solvent-Borne Epoxy Coatings
* Progress in Organic Coatings*, 204, 109234 (2025).
Strengths and eligibility factors that make Dr. Mohammad Hassan Hadizadeh a strong candidate for the Distinguished Researcher Award, each presented under a focused heading:
Outstanding Publication Record in High-Impact Journals
Dr. Hadizadeh has authored over 25 peer-reviewed articles in respected international journals, including Physical Chemistry Chemical Physics, Scientific Reports, Journal of Environmental Chemical Engineering, and Progress in Organic Coatings. His research has addressed critical challenges in atmospheric chemistry, nanomaterials, and environmental degradation. The consistently high quality and volume of his publications demonstrate sustained scholarly productivity and international visibility.
Interdisciplinary Research Excellence in Environmental and Computational Chemistry
With expertise spanning density functional theory (DFT), ab initio molecular dynamics (AIMD), and atmospheric interface modeling, Dr. Hadizadeh has contributed novel insights into pollutant transformation, radical behavior, and adsorption mechanisms. His interdisciplinary work merges computational chemistry with real-world environmental applications, making his findings both theoretically rigorous and practically impactful—a key eligibility criterion for distinction.
International Recognition and Collaboration
Dr. Hadizadeh has held visiting scholar positions at the University of Copenhagen and the Research Institute of Petroleum Industry (RIPI), and has collaborated with global experts from China, Europe, and the Middle East. His selection as a National Foreign Expert in China underscores his international credibility, leadership, and institutional trust—qualities central to distinguished researcher status.
Research Funding and National-Level Project Leadership
He has led or contributed to several NSFC-funded research projects, reflecting his capacity to secure competitive funding and manage large-scale scientific investigations. His work aligns with national and global priorities in clean energy, environmental remediation, and chemical safety—strengthening his case for recognition at the distinguished level.
Scientific Impact and Academic Service
Dr. Hadizadeh’s research has received 190 citations, an h-index of 8, and an i10-index of 6, with nearly all citations emerging after 2020—indicating both scientific relevance and rising influence. In addition, his role as a reviewer for RSC and Elsevier journals and his participation as an invited speaker at international conferences highlight his broader contributions to the advancement and dissemination of scientific knowledge.
Kawther Al-Soudany, Engineering, Female Researcher Award
Prof. Dr Kawther Al-Soudany: professor at University of Technology, Baghdad, Iraq.
Prof. Kawther Yaly Hussain Al-Soudany is a distinguished geotechnical engineer and professor at the University of Technology in Baghdad, Iraq. With over 20 years of academic, research, and practical experience, she has made significant contributions to soil mechanics, ground improvement, and environmental geotechnics. Her work focuses on developing sustainable and innovative engineering solutions tailored to the complex geotechnical challenges of soft and contaminated soils in Iraq and the broader Middle East region. Prof. Al-Soudany is widely recognized for her dedication to advancing knowledge and mentoring the next generation of engineers.
Online Profiles
Documents Indexed in Scopus: 25
Total Citations: 107
Cited By: 89 documents
h-index: 7
Prof. Al-Soudany’s research portfolio indexed in Scopus reflects a solid academic footprint in the field of geotechnical and environmental engineering. Her publications focus on soil stabilization, landfill liner performance, and the geotechnical behavior of contaminated and treated soils. With an h-index of 7, her work demonstrates consistent academic influence and relevance within the geotechnical engineering research community.
Education
Prof. Al-Soudany earned her Ph.D. in Geotechnical Engineering from the University of Technology, Baghdad, in 2025, marking the culmination of years of focused research into soil stabilization and landfill liner systems. Prior to that, she completed an M.Sc. in Geotechnical Engineering in 2006, during which she investigated innovative ground improvement methods such as enlarged base stone columns. Her academic foundation was laid with a B.Sc. in Building & Construction Engineering in 2002 from the same institution, providing a comprehensive understanding of civil engineering principles and their practical applications.
Research Focus
Her research spans several critical areas of geotechnical engineering, including soil stabilization using waste materials like rice husk ash, silica fume, and polymer additives; ground improvement techniques such as stone columns and nanomaterials; and environmental geotechnics focusing on landfill liner performance and soil contamination by hydrocarbons. She is particularly interested in the sustainable reuse of industrial and agricultural by-products to enhance soil properties, reduce environmental impact, and improve infrastructure durability in regions with problematic soil conditions.
Experience
Over her two-decade career, Prof. Al-Soudany has progressed from demonstrator to full professor at the University of Technology, where she has taught and supervised courses in soil mechanics, foundation engineering, and advanced soil laboratory techniques. Her academic roles are complemented by extensive hands-on experience conducting laboratory and field soil tests, ensuring that her teaching and research are grounded in practical applications. She has also actively contributed to curriculum development and mentoring students and junior researchers.
Research Timeline
Starting with her M.Sc. thesis on enlarged base stone columns in 2006, Prof. Al-Soudany’s research portfolio has steadily expanded to include soil improvement using various waste materials, assessment of soil contamination effects, and innovative stabilization methods involving nanotechnology. Her recent work focuses on landfill liner systems, exploring the use of magnesium oxide and water treatment sludge ash to improve clay liner performance, reflecting her commitment to addressing pressing environmental challenges through engineering.
Awards & Honors
Prof. Al-Soudany’s academic excellence is demonstrated through her extensive publication record in prestigious international journals and her presentations at key conferences worldwide. While specific awards are not listed, her election to professional societies and her leadership roles in geotechnical research projects highlight the high regard in which she is held by peers. Her ongoing contributions have positioned her as a leading expert in geotechnical engineering and environmental soil science in Iraq and beyond.
Top-Noted Publication
A landmark publication, “Model Tests of Enlarged Base Stone Columns,” presented at the 13th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering (2007), showcases Prof. Al-Soudany’s innovative approach to ground improvement. This work has been influential in advancing practical solutions for enhancing soil bearing capacity and reducing settlement, widely cited by researchers and practitioners engaged in soil stabilization and foundation engineering projects across Asia and the Middle East.
1. Desiccation Crack and Volumetric Shrinkage of Magnesium Oxide-Treated Compacted Soil Liner in Landfill
Authors: Al-Soudany, K.Y.H., et al.
Journal: Environmental Earth Sciences, 2025
Summary: This study investigates how magnesium oxide additives affect desiccation cracking and shrinkage behavior in compacted clay liners used in landfill applications. The results highlight improved volumetric stability and crack resistance, suggesting magnesium oxide as a viable treatment method for enhancing liner durability in arid environments.
2. Evaluating the Environmental Impact of Stone Columns on Clay Barrier Liners in Landfills
Authors: Al-Soudany, K.Y.H., et al.
Journal: Environmental Monitoring and Assessment, 2025
Summary: This paper assesses the potential environmental implications of installing stone columns in soft landfill liners, focusing on hydraulic conductivity changes and structural interaction. The findings underscore the importance of evaluating soil-column compatibility in landfill containment design.
Citations: 1