Aleksandar Bojić | Material Science | Best Researcher Award

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Prof. Aleksandar Bojić | Material Science | Best Researcher Award

Full Professor | University of Niš, Faculty of Sciences | Serbia

Aleksandar Bojić is a distinguished Serbian academic and researcher currently serving as a Full Professor at the Faculty of Sciences and Mathematics, University of Niš. With an extensive background in applied, industrial, and environmental chemistry, Bojić has made significant contributions to the fields of water treatment, environmental chemistry, and materials science. Over the years, he has directed several key research projects focusing on innovative approaches to wastewater purification, chemical and electrochemical processes, and environmental protection. His work has earned him recognition within both national and international scientific communities.

Profile

Education

Bojić’s educational journey began at the University of Niš, where he earned his Bachelor’s degree in Chemistry in 1991, focusing on the influence of physicochemical properties of glasses on the mechanical characteristics of ceramic joints. He continued his academic pursuit by obtaining a Master’s degree in 1997, exploring electrocatalysis in aqueous solutions with a solid metal catalyst. In 2002, Bojić completed his PhD, which centered on the electrochemical effects of microalloyed aluminum-based composites on microorganisms in aqueous environments.

Experience

Throughout his career, Bojić has held various academic and research positions at the University of Niš, advancing through the ranks from Research Assistant to Full Professor. His professional experience extends beyond teaching, as he has led numerous research initiatives and contributed significantly to the scientific community’s understanding of water treatment and environmental chemistry. He has served as Head of the Laboratory for Applied, Industrial, and Environmental Chemistry since 2011, a role that allows him to directly impact the development of new technologies for water purification and waste management.

Research Interest

Bojić’s research interests are wide-ranging but focus primarily on applied chemistry and environmental engineering. He is particularly interested in advanced oxidation processes (e.g., UV/Ox, photocatalysis, and Fenton processes) for water treatment, as well as the use of biosorbents and activated carbons in wastewater purification. Additionally, his work explores electrochemical processes for water treatment, such as electro-oxidation and electro-coagulation-flotation. He has also made notable contributions to the study of corrosion, materials science, and the development of sustainable solutions for environmental protection. His work in these fields aims to address global challenges, including water contamination and the sustainable use of natural resources.

Award

Based on the extensive qualifications, research background, and contributions, Aleksandar Bojić seems highly suitable for the “Best Researcher Award.

Publications Top Note

Bojić, A.L., et al. “Enhanced thermal stability and excellent electrochemical and photocatalytic performance of needle-like form of zinc-phthalocyanine.” Ceramics International, 2024.

Filipović, K., et al. “Highly efficient nano sorbent as a superior material for the purification of wastewater contaminated with anthraquinone dye RB19.” Journal of Water Process Engineering, 2024.

Petrović, M.M., et al. “Co-doped ZnO catalyst for non-thermal atmospheric pressure pulsating corona plasma degradation of reactive dye.” Materials Chemistry and Physics, 2024.

Velinov, N.D., et al. “The Application of Wood Biowaste Chemically Modified by Bi2O3 as a Sorbent Material for Wastewater Treatment.” Processes, 2024.

Tadić, T.T., et al. “Novel eco-friendly sorbent derived from Acer pseudoplatanus seed for atenolol removal from pharmaceutical wastewater.” Journal of Water Process Engineering, 2024.

Petrović, M.M., et al. “Non-thermal atmospheric-pressure positive pulsating corona discharge in degradation of textile dye Reactive Blue 19 enhanced by Bi2O3 catalyst.” Plasma Science and Technology, 2024.

Conclusion

Aleksandar Bojić is a respected researcher and academic whose work in environmental chemistry, water treatment, and materials science has had a profound impact on both academic and practical approaches to environmental sustainability. His numerous publications, research projects, and awards speak to his commitment to advancing the understanding of chemical processes for environmental protection. Through his leadership in research and teaching, Bojić continues to contribute to the scientific community, guiding the next generation of researchers in tackling some of the world’s most pressing environmental challenges.

 

 

Hui Chen | Pancreatic Lesions | Best Researcher Award

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Mr. Hui Chen | Pancreatic Lesions | Best Researcher Award

Research student | Thomas Jefferson University | United States

Hui (Eli) Chen is a dedicated medical student at Sidney Kimmel Medical College at Thomas Jefferson University in Philadelphia, Pennsylvania. Anticipated to earn her Doctor of Medicine (M.D.) degree in May 2025, she has distinguished herself academically, ranking in the top third of her class. Prior to her medical studies, she completed dual bachelor’s degrees at the University of Delaware, earning a Bachelor of Science in Medical Diagnostics and a Bachelor of Arts in Liberal Studies, both summa cum laude. Her academic excellence is further highlighted by her perfect 4.00 GPA and membership in prestigious honor societies such as Phi Beta Kappa.

Profile

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Education

Chen’s educational journey reflects a strong commitment to both the sciences and humanities. At the University of Delaware, she pursued a rigorous curriculum, achieving summa cum laude honors in both her Bachelor of Science and Bachelor of Arts degrees. Her minors in Biology and Disability Studies underscore her broad academic interests and dedication to understanding diverse aspects of human health and society. Her perfect GPA and inclusion in honor societies like Phi Beta Kappa and the Dean’s List further attest to her academic prowess.

Experience

Throughout her academic career, Chen has actively engaged in research and clinical experiences. At Thomas Jefferson University Hospital, she has contributed to multiple research projects, including studies on delayed gastric emptying and pancreatic cancer. Her work has been presented at various conferences and published in reputable journals, demonstrating her commitment to advancing medical knowledge. Additionally, she has been involved in community service initiatives, such as organizing events to repurpose donated food for shelters, highlighting her dedication to social responsibility.

Research Interests

Chen’s research interests are centered on gastrointestinal surgery and pancreatic cancer. She has conducted studies on the rates and severity of delayed gastric emptying following different surgical procedures and has explored the impact of genetic mutations on pancreatic cancer outcomes. Her work aims to improve surgical practices and patient outcomes in these areas.

Awards

Chen’s academic and extracurricular achievements have been recognized through several awards. In April 2024, she received the Outstanding Community Service and Advocacy Organization of the Year award for her leadership in the Culinary Arts Society’s initiatives. In November 2023, she was inducted into the George McClellan Surgical Honor Society, acknowledging her clinical and academic excellence. Other honors include the Medical and Molecular Sciences Scholar Award and the Dr. Joseph J. Straight Award, both awarded in May 2021, reflecting her outstanding academic performance.

Publications Top Note

“Correlation of GNAS Mutational Status with Oncologic Outcomes in Patients with Resected Intraductal Papillary Mucinous Neoplasms.” Cancers, February 19, 2025.

“If you can read this.” Evanescent: A Journal of Literary Medicine, March 29, 2024.

“Impact of Antecolic vs Transmesocolic Reconstruction on Delayed Gastric Emptying Following Pancreaticoduodenectomy.” Journal of Gastrointestinal Surgery, June 1, 2024.

“Activity of Daily Living in Mucopolysaccharidosis IVA Patients: Evaluation of Therapeutic Efficacy.” Molecular Genetics & Genomic Medicine, November 9, 2021.

“Enzyme Replacement Therapy for Mucopolysaccharidoses; Past, Present, and Future.” Journal of Human Genetics, November 2019.

“Therapies for MPS at a Glance.” In Mucopolysaccharidoses Update (2 Volume Set), August 2018.

“Gene Therapy for Mucopolysaccharidoses.” Molecular Genetics and Metabolism, February 1, 2018.

Conclusion

Hui (Eli) Chen exemplifies the qualities of a dedicated and accomplished medical student. Her academic excellence, research contributions, and community service reflect a commitment to advancing medical knowledge and improving patient care. As she approaches the completion of her M.D. program, her diverse experiences and achievements position her as a promising future leader in the medical field.

Maryam Maghsoodi | Pharmaceutics | Best Researcher Award

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Prof. Maryam Maghsoodi | Pharmaceutics | Best Researcher Award

Professor | School of Pharmacy and Drug Applied Research Center, Tabriz University of Medical Sciences, Tabriz | Iran

Professor Maryam Maghsoodi is a distinguished academic and researcher in the field of pharmaceutics. Currently serving as a professor at Tabriz University of Medical Sciences, she specializes in particle engineering, drug dissolution, controlled release drug delivery systems, and the modification of physicomechanical properties of pharmaceuticals. With a Pharm.D. degree from Tabriz University of Medical Sciences and a Ph.D. in Pharmaceutics, Professor Maghsoodi’s contributions to the field are recognized internationally. She is dedicated to improving pharmaceutical formulation techniques and drug delivery mechanisms through her research, particularly in the areas of drug release behavior and polymeric-based matrices.

Profile

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Education

Professor Maghsoodi’s academic journey began with a Pharm.D. degree from the Faculty of Pharmacy at Tabriz University of Medical Sciences in 1994. This solid foundation in pharmacy led her to pursue a Ph.D. in Pharmaceutics at the same institution, where she completed her doctoral studies in 2005. Her extensive educational background provides her with a robust understanding of pharmaceutical sciences, especially in the realms of drug formulation and delivery systems. Her commitment to advancing her knowledge and contributing to the scientific community has positioned her as a leading figure in pharmaceutics research.

Experience

Throughout her academic career, Professor Maghsoodi has gained significant teaching experience. She has taught both undergraduate and postgraduate courses at Tabriz University of Medical Sciences. Her undergraduate courses include Pharmaceutical Dosage Forms (Pharmaceutics II, Theoretical), as well as Pharmaceutical Dosage Forms (Pharmaceutics III and IV, Practical). In postgraduate programs, she has taught Industrial Pharmacy in both theoretical and practical formats. Professor Maghsoodi’s teaching philosophy is rooted in imparting in-depth knowledge of pharmaceutics, while also fostering practical, real-world skills essential for students pursuing careers in pharmacy and pharmaceutical industries. Additionally, she has played an important role in guiding numerous students through their academic journeys.

Research Interests

Professor Maghsoodi’s research interests revolve around advancing pharmaceutical technologies, particularly in drug formulation and delivery systems. Her work focuses on particle engineering and the modification of the physicomechanical properties of pharmaceuticals through recrystallization techniques. She has made significant contributions to improving drug dissolution characteristics, which is crucial for enhancing the bioavailability of medications. Furthermore, her research explores the effects of various variables on drug release behavior, especially in polymeric-based matrices and microspheres. She is particularly interested in controlled release drug delivery systems, aiming to improve therapeutic efficacy while minimizing side effects. Her work has made a significant impact on the development of more effective and efficient drug delivery systems.

Publications Top Note

Maghsoodi, M., Nabizadeh, H., & Nokhodchi, A. (2017). Evaluation of the effect of some additives on the efficiency of binder liquid in wet agglomeration of crystals. Pharmaceutical Development and Technology. [DOI: 10.1080/10837450.2016.1203937]

Maghsoodi, M., & Nokhodchi, A. (2016). Agglomeration of Celecoxib by Quasi Emulsion Solvent Diffusion Method: Effect of Stabilizer. Advanced Pharmaceutical Bulletin. [DOI: 10.15171/apb.2016.075]

Shahgholian, G., Maghsoodi, M., Mahdavian, M., Janghorbani, M., Azadeh, M., & Farazpey, S. (2016). Analysis of Speed Control in DC Motor Drive by Using Fuzzy Control Based on Model Reference Adaptive Control. 13th International Conference on Electrical Engineering/electronics, Computer, Telecommunications, and Information Technology (Ecti-Con).

Shahgholian, G., Maghsoodi, M., Mahdavian, M., Farazpey, S., Janghorbani, M., & Azadeh, M. (2016). Design of Fuzzy plus PI Controller in Application of TCSC and PSS for Power System Stability Improvement. 13th International Conference on Electrical Engineering/electronics, Computer, Telecommunications, and Information Technology (Ecti-Con).

Hassanzadeh, K., Akhtari, K., Esmaeili, S. S., Vaziri, A., Zamani, H., Maghsoodi, M., Noori, S., Moradi, A., & Hamidi, P. (2016). Encapsulation of Thiotepa and Altretamine as neurotoxic anticancer drugs in Cucurbit[n]uril (n=7, 8) nanocapsules: A DFT study. Journal of Theoretical & Computational Chemistry. [DOI: 10.1142/S0219633616500565]

Conclusion

Professor Maryam Maghsoodi is a prominent figure in the field of pharmaceutics, with extensive expertise in drug formulation and delivery. Her research has made substantial contributions to the development of controlled release systems and improved drug dissolution, which are critical areas of pharmaceutical science. Through her dedication to both teaching and research, she has inspired many students and professionals in the field. Her work continues to influence the design of pharmaceutical dosage forms and delivery systems, helping to advance the overall quality and effectiveness of medications. With a solid academic background, a wealth of teaching experience, and impactful research, Professor Maghsoodi remains a respected leader in pharmaceutics.

Zihao Huang | Forest Carbon Cycle | Best Researcher Award

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Dr. Zihao Huang | Forest Carbon Cycle | Best Researcher Award

Student | Zhejiang A and F Unversity | China

Zihao Huang is currently pursuing a Ph.D. in Forestry at Zhejiang Agriculture & Forest University (ZAFU), focusing on remote sensing, land cover change, carbon cycle dynamics, and machine learning. With a strong academic background in geographic information science and forest management, he has dedicated his research to addressing complex environmental issues through innovative methods. His contributions to understanding forest ecosystems and carbon storage patterns are widely recognized, including a series of impactful publications in renowned journals such as Remote Sensing and IEEE Transactions on Geoscience and Remote Sensing.

Profile

Education

Zihao Huang’s academic journey began at Nanjing Tech University, where he earned his B.S. in Geographic Information Science (2014-2018). His commitment to environmental studies led him to Zhejiang Agriculture & Forest University (ZAFU), where he completed his M.S. in Forest Management in 2021 with high academic distinction (GPA: 3.68/4.0). Currently, as a Ph.D. candidate at ZAFU (expected 2025), he maintains a stellar GPA of 3.87/4.0. Throughout his academic tenure, he has been the recipient of multiple Graduate Studies Scholarships (2018-2022), further cementing his academic excellence.

Experience

Zihao’s extensive research experience has honed his expertise in various critical aspects of forestry and remote sensing. As a Research Assistant at ZAFU (2018-present), he has worked under the mentorship of Dr. Huaqiang Du and collaborated with several experts, contributing to multiple groundbreaking projects. His notable projects include the simulation of land use/land cover (LUCC) changes, estimation of forest age, and the exploration of the effects of forest cover change on above-ground carbon storage. Utilizing advanced techniques like artificial neural networks, random forests, and Google Earth Engine, he has contributed significantly to the understanding of forest dynamics in Zhejiang Province, China.

Research Interests

Zihao Huang’s primary research interests encompass remote sensing, land cover change, carbon cycle dynamics, and machine learning. His work focuses on simulating spatial patterns of land use and land cover change, assessing the impact of climate and human activities on forest ecosystems, and quantifying the carbon storage potential of subtropical forests. By combining satellite imagery, machine learning models, and carbon cycle simulations, his research aims to enhance the accuracy of carbon flux estimates and develop more effective forest management strategies.

Awards

Zihao Huang appears to be an outstanding candidate for the Best Researcher Award based on his extensive academic and research accomplishments. His research spans multiple important and cutting-edge fields such as remote sensing, land cover change, carbon cycle, and machine learning, with a particular focus on environmental and ecological systems in China.

Publications Top Note

Huang, Z., Mao, F., Du, H.*, Li, X. (in preparation). Improving the land cover classification in Zhejiang Province and analyzing the effect of land cover change on above-ground carbon storage.

Huang, Z., Li, X., Du, H.*, Zou, W., Zhou, G., Mao, F. (Minor Revision). An algorithm of forest age estimation based on the forest disturbance and recovery detection. IEEE Transactions on Geoscience and Remote Sensing.

Huang, Z., Du, H.*, Li, X., Mao, F. (2022). Simulating future LUCC by coupling climate change and human effects based on multi-phase remote sensing data. Remote Sensing, 14(7): 1698.

Huang, Z., Du, H.*, Li, X., Zhang, M., Mao, F. (2020). Spatiotemporal LUCC simulation under different RCP scenarios based on the BPNN_CA_Markov model: A case study of bamboo forest in Anji County. ISPRS International Journal of Geo-Information, 9(12): 718.

Mao, F., Du, H.*, Zhou, G., Huang, Z. (2023). Land use and cover in subtropical East Asia and Southeast Asia from 1700 to 2018. Global and Planetary Change, 226: 104157.

Xu, Y., Li, X., Du, H., Mao, F., Zhou, G., Huang, Z. (2023). Improving extraction phenology accuracy using SIF coupled with the vegetation index and mapping the spatiotemporal pattern of bamboo forest phenology. Remote Sensing of Environment, 297: 113785.

Zhang, X., Jiao, H., Chen, G.*, Shen, J., Huang, Z., Luo, H. (2022). Forest damage by super typhoon Rammasun and post-disturbance recovery using Landsat imagery and machine-learning methods. Remote Sensing, 14: 3826.

Conclusion

Zihao Huang’s research trajectory showcases his unwavering commitment to improving the scientific understanding of forest ecosystems and environmental sustainability. His proficiency in integrating machine learning with remote sensing techniques has enabled him to tackle complex issues surrounding land cover changes and carbon cycle dynamics. With numerous publications and a strong academic background, he continues to make significant strides in his field. As he nears the completion of his Ph.D. program, Zihao Huang’s research promises to contribute significantly to the scientific community’s efforts in combating climate change and managing forest resources sustainably.

Hapson Mushoriwa | Breeding | Best Researcher Award

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Dr. Hapson Mushoriwa | Breeding | Best Researcher Award

Head of Breeding | International Institute of Tropical Agriculture | Zimbabwe

Dr. Hapson Mushoriwa, a distinguished scientist specializing in plant breeding and genetics, has contributed significantly to the agricultural development in Africa, particularly in crop improvement through quantitative genetics. Since obtaining his degree in 1993, Dr. Mushoriwa has focused on addressing societal challenges, creating wealth, and contributing to the development of Africa through innovative research. His work has particularly impacted the productivity of crops such as soybean, dry bean, chickpea, groundnut, and pigeonpea, making remarkable strides in improving food security in Sub-Saharan Africa.

Profile

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Education

Dr. Mushoriwa holds multiple advanced degrees that support his expertise in agricultural science. He earned his PhD in Plant Breeding and Genetics from the University of KwaZulu-Natal (2011-2014), where his research focused on breeding gains and inheritance studies for soybean. Prior to that, he completed a Master of Science in Plant Breeding & Agronomy at the University of Zimbabwe (2006-2007), followed by an MBA (2008-2010). He also holds a BSc in Agricultural Management from the Zimbabwe Open University (2001-2004). Additionally, he gained a diploma in agriculture from Gwebi Agricultural College (1991-1993).

Experience

Dr. Mushoriwa’s career has spanned several esteemed institutions across Africa. His professional journey began in 1993 at Zimbabwe’s Crop Breeding Institute, where he made substantial contributions to the release and registration of four soybean varieties. In 2003, he moved to Seed Co Research & Development, where he focused on developing competitive soybean varieties for Southern Africa. His leadership role at Pannar Seed in South Africa from 2007 to 2015 further showcased his ability to drive soybean breeding programs across several African countries. He returned to Seed Co as Lead Scientist for Soybean Breeding in 2015, where he played a pivotal role in the commercialization of his varieties, contributing to improved food and nutrition security across Sub-Saharan Africa. Dr. Mushoriwa’s work at ICRISAT as Regional Breeding Theme Lead and currently at the International Institute of Tropical Agriculture (IITA) as Head of Breeding demonstrates his continuous leadership in optimizing breeding strategies and delivering farmer-preferred varieties.

Research Interests

Dr. Mushoriwa’s research interests are primarily focused on crop improvement using quantitative genetics and advanced breeding methods to enhance the productivity of legumes and other staple crops. His interests span from improving soybean varieties to optimizing breeding processes for crops like groundnuts, sorghum, chickpeas, and pigeonpeas, with a strong emphasis on enhancing food security. His work on utilizing data science and modern breeding tools has made significant impacts on crop development in Africa.

Awards

Dr. Mushoriwa’s career has been marked by numerous awards, acknowledging his contributions to agriculture. Notably, he was awarded the Coopers and Lybrand Prize in 1993 for being the best student in Animal Husbandry. He also received the Admore Farm Bursary in 1991 for his outstanding efforts as a pre-college student. His leadership and development of innovative agricultural programs have further solidified his standing as an expert in crop breeding.

Publications Top Notes

Mushoriwa, H. (2007). Evaluation & Characterisation of Twenty-Two Soybean Lines Under Rust Infested and Non-Infested Conditions, University of Zimbabwe.

Gwata, E.T., Wofford, D.S., and Mushoriwa, H. (2003). Determination of Effective Nodulation in Soybean for Genetic Studies, African Journal of Biotechnology, 2(11), 417-420.

Chigeza, G., et al. (2018). Advances in Soybean Breeding in the African Tropics, Plant Breeding, Wiley.

Nachilima, C., et al. (2020). Evaluation of Soybean Entries for Foliar Diseases in Malawi and Zambia, Plant Disease, 104, 2068-2073.

Mushoriwa, H., et al. (2021). Evaluation of Soybean Entries for Response to Coniothyrium glycines, APS Publications.

Mushoriwa, H. (2014). Breeding Gains and Inheritance Studies on Soybean Germplasm in Zimbabwe, University of KwaZulu-Natal.

Mushoriwa, H. & Derera, J. (2020). Crop Genetics to Help Feed Growing African Population, AFSTA: The African Seed.

Conclusion

Dr. Hapson Mushoriwa’s career exemplifies a blend of academic achievement, practical experience, and commitment to addressing Africa’s agricultural challenges. His vast contributions to plant breeding, particularly in the development and commercialization of soybean and other legumes, have not only enhanced food security but also contributed to the economic development of the region. As Head of Breeding at IITA, Dr. Mushoriwa continues to lead efforts to streamline breeding processes and strengthen partnerships, ensuring the long-term sustainability of agricultural development in Africa. His recognition through various awards and publications showcases his enduring impact on the agricultural community and his pivotal role in shaping the future of crop breeding across the continent.

Shuai Liang | Architecture | Best Researcher Award

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Dr. Shuai Liang | Architecture | Best Researcher Award

Lecturer | Nanjing Tech University | China

Shuai Liang is a distinguished academician with a Ph.D. in Human Settlement Environmental Science and Technology, currently serving at the School of Architecture, Nanjing Tech University. Her research integrates interdisciplinary domains such as behavioral psychology, climate science, geography, public health, statistics, and experimental methods, using emerging technologies like machine learning and data mining to address issues related to human settlement environments. Her primary research focus is on the impact of built environments on human health behavior, aiming to develop strategies that promote healthy cities and improve public health outcomes. Her extensive work has earned recognition in the academic community, with numerous publications and participation in national scientific research projects.

Profile

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Education

Shuai Liang obtained her Ph.D. in Human Settlement Environmental Science and Technology, an area that combines a broad spectrum of academic fields. Her education provided her with a deep understanding of how physical environments influence human health and well-being. Over the course of her academic journey, she honed her research skills, focusing on the application of interdisciplinary approaches to urban planning and public health. Her academic background laid the foundation for her future contributions to the development of healthier, more sustainable urban environments.

Experience

Dr. Liang’s professional career is marked by significant academic and research accomplishments. As a faculty member at the School of Architecture at Nanjing Tech University, she has contributed to the advancement of knowledge in her field through her active participation in national research projects and numerous publications. Her research has brought attention to key issues such as outdoor thermal comfort, the promotion of physical activity through urban design, and the psychological and physical impacts of urban environments on human health. She has also made notable contributions as a journal reviewer for reputable academic journals, further establishing her expertise in the field.

Research Interests

Shuai Liang’s research interests are multifaceted, reflecting her interdisciplinary approach to understanding the complexities of urban environments and their impact on human health. Her primary research focuses on outdoor thermal comfort, physical activity promotion, cognitive psychology, and built environment perception, all within the context of public health. Liang also explores the application of data mining techniques to analyze environmental factors that influence behavior, seeking to create environments that enhance both physical and mental well-being. Her work is deeply rooted in understanding the seasonal behaviors of individuals in cold regions, as well as how these behaviors interact with the built environment to influence overall health.

Award Suitable

Shuai Liang is indeed a highly suitable candidate for the Research for Best Researcher Award based on the strength of her academic background and contributions to the field of human settlement environmental science and technology. With a PhD in this domain, her interdisciplinary approach to research stands out, incorporating behavioral psychology, climate science, geography, public health, and statistics to address pressing issues surrounding human settlements and their impact on public health. Her research not only focuses on the integration of emerging technologies such as machine learning and data mining but also aims at promoting healthy cities through innovative applications.

Publications Top Notes

Liang, S., H. Leng, “Residents’ seasonal behavior patterns and spatial preferences in public open spaces of severely cold regions: Evidence from Harbin, China,” Habitat International, 2025, 156: p. 103279.

Liang, S., Leng, H.*, Yuan, Q., Wang, B., Yuan, C., “How does weather and climate affect pedestrian walking speed during cool and cold seasons in severely cold areas?” Building and Environment, 2020, 175: 106811.

Liang, S., Leng, H., Yuan, Q., Yuan, C., “Impact of the COVID-19 pandemic: Insights from vacation rentals in twelve mega cities,” Sustainable Cities and Society, 2021, 74: 103121.

Leng, H., Liang, S., Yuan, Q., “Outdoor thermal comfort and adaptive behaviors in the residential public open spaces of winter cities during the marginal season,” International Journal of Biometeorology, 2020, 64(2): 217-229.

Liang, S., Leng, H.*, “Research on feature recognition and optimization of public space in winter city based on the promotion of physical activity-A case study of Harbin,” 57th ISOCARP World Planning Congress, 8-11 November 2021.

Leng, H.*, Liang, S., “Outdoor thermal comfort and activities in the urban residential public open spaces: A case study of cold cities in transit season,” The 11th International Association for China Planning (IACP) Conference, June 2017.

Yuan, Q.*, Liang, S., “Research on the post-occupancy evaluation of children’s park in Harbin,” The 12th International Symposium of Environmental-Behavior Research Association (EBRA), accepted for publication, October 2016.

Additionally, Dr. Liang is a co-author of a monograph titled Research on climate optimization strategies for public spaces in urban residential areas in severe cold regions (2019), published by Science Press.

Conclusion

Shuai Liang is a highly respected researcher whose work bridges the gap between environmental science, public health, and urban planning. Through her interdisciplinary approach, she is driving significant advancements in the understanding of how the built environment impacts human health and behavior. Her academic contributions, particularly in the realms of outdoor thermal comfort, physical activity promotion, and climate-responsive urban design, have made her an influential figure in her field. With several high-profile publications and a continuing commitment to research, Shuai Liang’s work continues to shape the future of sustainable and health-promoting cities.

De-xiang Sun | Polymer Composites | Best Researcher Award

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Assist. Prof. Dr. De-xiang Sun | Polymer Composites | Best Researcher Award

Polymer material researcher | Southwest Jiaotong University | China

De-xiang Sun is an assistant professor and a master’s tutor at the School of Chemistry, Southwest Jiaotong University. With a primary focus on polymer materials research, particularly polymer composites, he has made significant contributions to the enhancement of material performance, including strengthening and toughening, thermal conductivity, and flame retardancy. He has authored over 40 research papers in prominent SCI journals, with 13 of them as the first author or corresponding author. Sun has been actively involved in various provincial and ministerial research projects, such as the China Postdoctoral Science Foundation and the Sichuan Science and Technology Program. His research is centered on improving the functionality and performance of polymer composites, an area where he is establishing a solid reputation.

Profile

Scopus

Education

De-xiang Sun completed his academic qualifications with excellence, receiving significant recognition in his field of study. Although specific educational details are not mentioned, his successful career trajectory is a testament to the strong foundation laid during his academic years. His professional and research undertakings have consistently demonstrated a deep understanding of polymer materials science, leading him to contribute significantly to the field of high-performance polymer composites. His commitment to furthering education is also evident in his role as a mentor and master tutor, guiding future researchers and academics.

Experience

Dr. Sun’s professional career includes significant accomplishments as a researcher and educator in the field of chemistry. At Southwest Jiaotong University, he is both an assistant professor and a master’s tutor, a position that allows him to foster academic growth while furthering his research initiatives. He has been the principal investigator in several research projects, including those funded by major organizations such as the China Postdoctoral Science Foundation and the Sichuan Science and Technology Program. These projects often focus on enhancing the performance of polymer composites, particularly in areas like strengthening and toughening, flame retardancy, and thermal conductivity. Through his work, Sun has also contributed to more than 40 high-impact publications, underscoring his expertise in polymer materials science and making him a prominent figure in this academic field.

Research Interest

De-xiang Sun’s research interests primarily revolve around the high performance and functionalization of polymer composites. His work addresses challenges such as improving material strength, enhancing thermal conductivity, and developing flame-retardant properties. One of the key areas of his research focuses on understanding the relationship between ductility and relaxation behavior in polymers, particularly poly(lactic acid) (PLLA), and how physical aging influences these properties. Sun’s work is instrumental in providing new insights into the microstructure and performance evolution of polymers during physical aging. His research extends to developing methods to retard aging behaviors and improve material longevity. His interests lie at the intersection of material science, polymer chemistry, and engineering, with a focus on creating polymer composites that meet the ever-increasing demands of modern industry.

Award and Nominations

De-xiang Sun has received numerous accolades and recognition throughout his academic career. His dedication to advancing polymer composite research has earned him various research grants and project funding. Although specific awards are not detailed, Sun’s success in securing funding for his research and publishing in high-impact journals serves as a testament to the importance and value of his contributions. His innovative approach to the field of polymer composites, including enhancing their performance for practical applications, has been recognized in multiple scientific communities. Sun’s nomination for the Best Researcher Award underscores his consistent impact on the field and his growing influence in the scientific community.

Publications Top Notes

Liu, Y., Zhu, T., Wang, Q., Qi, X., Wang, Y. (2025). “Hierarchically Porous Polypyrrole Foams Contained Ordered Polypyrrole Nanowire Arrays for Multifunctional Electromagnetic Interference Shielding and Dynamic Infrared Stealth,” Nano-Micro Letters. No citations available.

Li, L., Wu, C., Sun, D., Huang, T., Wang, Y. (2024). “Synthesis of magnetically recyclable FeCeO nanocrystals with heterojunction between Fe2O3 and CeO2 via one-step method toward efficient organic dyes degradation by activating peroxymonosulfate,” Journal of Cleaner Production. Cited 1 time.

Wu, C., Chen, J., Long, Q.Y., Yang, J., Wang, Y. (2024). “Healable, Recyclable, and Ultra-Tough Waterborne Polyurethane Elastomer Achieved through High-Density Hydrogen Bonding Cross-Linking Strategy,” ACS Applied Materials and Interfaces. Cited 2 times.

Feng, M., Wu, C., Zeng, Z., Sun, D., Wang, Y. (2024). “Largely enhanced damping performance of nitrile rubber/ethylene–vinyl acetate blends via phenolic resin-induced phase separation,” European Polymer Journal. Cited 1 time.

Conclusion

De-xiang Sun is a highly regarded researcher and academic in the field of polymer materials, particularly polymer composites. His career is marked by a deep commitment to advancing the performance and functionalization of materials, specifically in the areas of toughness, thermal conductivity, and flame retardancy. As an assistant professor at Southwest Jiaotong University, his contributions to the field extend beyond academic research to include mentoring the next generation of scientists. Sun’s extensive publication record and his involvement in high-profile research projects highlight his significance in the scientific community. His ongoing work continues to push the boundaries of material science, and his dedication positions him as a leading figure in the study of polymer composites.

 

 

Sofoklis Makridis | Hydrogen Technologies | Best Researcher Award

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Assoc. Prof. Dr. Sofoklis Makridis | Hydrogen Technologies | Best Researcher Award

Director of environmental physics and hydrogen technologies lab, University of Patras & AE4RIA Sustainability sector, Greece

Assoc. Prof. Sofoklis Makridis is a distinguished academic and researcher with expertise in hydrogen technologies, energy systems, and environmental engineering. He holds a Ph.D. in Materials Science and Engineering and has an extensive background in both academic and industrial research. As the Director of the InnoEnergy Lab at the University of Patras, he leads cutting-edge research in hydrogen storage, CO2 capture, and nanocomposite materials. With his multidisciplinary approach, he has contributed significantly to advancing green technologies and sustainable energy solutions. His work extends across collaborations with top universities and research institutions globally, and he actively mentors future leaders in the field.

Profile

Education

Assoc. Prof. Makridis’ academic journey began with a B.Sc. in Physics from the University of Ioannina, Greece. His passion for materials science led him to earn both an M.Sc. and Ph.D. in Materials Science and Engineering from Aristotle University of Thessaloniki. To further refine his skills, he pursued an MBA in Entrepreneurship and Innovation from the Open University, UK, where he expanded his understanding of the intersection of technology and business.

Experience

Assoc. Prof. Makridis’ career spans both academia and industry, marked by impactful collaborations in hydrogen energy systems. He serves as an Associate Professor in the Department of Environmental Engineering at the University of Patras, where he has taught and supervised numerous students in energy and environmental engineering programs. In addition, he has held visiting professor roles at leading universities such as the University of Cranfield, University of Bradford, KU Leuven, and the University of Loughborough. He has played a pivotal role in various European and international projects, including hydrogen storage systems, CO2 capture, and energy efficiency technologies, collaborating with organizations such as LBNL and the European Commission.

Research Interests

Assoc. Prof. Makridis’ research interests are primarily focused on hydrogen storage, fuel cells, and sustainable energy solutions. His work on metal hydride hydrogen compressors, CO2 capture, and CFD modeling in hydrogen fuel cell systems has led to significant breakthroughs. He is particularly passionate about advancing nanocomposite materials for high-temperature permanent magnets and developing zero-carbon technologies for green buildings and smart cities. His research integrates theoretical, experimental, and computational methods to optimize energy systems, supporting a transition to a more sustainable future.

Publication Top Notes

Makridis, S., et al. “Efficient hydrogen storage in Mg-nanocomposites and novel nanochemistry manipulation.” International Journal of Hydrogen Energy, 2020.

Makridis, S., et al. “CFD modeling of hydrogen-fuel cell systems for optimization.” Journal of Power Sources, 2018.

Makridis, S., et al. “Environmental approaches to smart city energy solutions.” Renewable and Sustainable Energy Reviews, 2017.

Makridis, S., et al. “Nanocomposites for high-temperature permanent magnets.” Journal of Materials Science, 2016.

Makridis, S., et al. “Hydrogen storage in metal hydrides: Progress and challenges.” Materials Science and Engineering Reports, 2015.

His work has garnered significant attention, as evidenced by its citation in numerous academic and industry papers, further establishing him as a leader in his field.

Conclusion

Assoc. Prof. Sofoklis Makridis is a prominent academician and researcher with a distinguished career focused on advancing hydrogen technologies and sustainable energy solutions. His contributions to energy systems and his leadership in interdisciplinary research have positioned him as a key figure in the transition towards a more sustainable and green future. Through his work in both academia and industry, he has mentored future leaders, fostered innovative research, and contributed to significant technological advancements in energy storage and environmental systems. His dedication to education, research, and innovation makes him an ideal candidate for any award nomination in the field of energy and sustainability.

 

 

Dewen Tang | Nuclear Energy | Best Researcher Award

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Dr. Dewen Tang | Nuclear Energy | Best Researcher Award

Vice Dean | University of South China | China

Dr. Dewen Tang is an esteemed Professor and Ph.D. supervisor, currently serving as the Vice Dean of the School of Mechanical Engineering at the University of South China. He holds a Ph.D. in Mechanical Engineering from Guangdong University of Technology, earned in 2009. Over the course of his career, Dr. Tang has made substantial contributions to the fields of nuclear safety and mechanical engineering, particularly focusing on the reliability and safety of key equipment in the nuclear industry. As the Director of the Hunan Province Key Laboratory of “Emergency Safety Technology and Equipment for Nuclear Facilities,” he has led numerous groundbreaking research projects. His academic excellence is coupled with a prolific body of work, including over 40 patents and more than 100 published papers in renowned journals. Dr. Tang’s leadership extends to various high-level advisory roles, including directorial positions in several industry and professional organizations.

Profile

Scopus

Education

Dr. Tang’s academic journey is marked by his achievement of a Ph.D. in Mechanical Engineering from Guangdong University of Technology in 2009. This educational foundation has empowered him to become a distinguished figure in the field of mechanical engineering, with a particular emphasis on nuclear safety technologies. Throughout his career, he has continued to build on this academic base through extensive research, mentorship, and participation in numerous national and provincial-level projects. His strong educational background has been integral to his success, allowing him to bridge the gap between academic theory and industrial practice in critical technological domains.

Experience

With extensive experience in both academia and industry, Dr. Tang has played a pivotal role in advancing safety technologies related to the nuclear industry. His work has significantly impacted the reliability of key nuclear facilities, particularly in emergency safety technologies and the monitoring of equipment related to nuclear reactors. As Vice Dean of the School of Mechanical Engineering, he manages a variety of research programs while nurturing the next generation of engineers and researchers. Additionally, he has led over 30 research projects, many of which focus on advanced manufacturing techniques, nuclear decommissioning, and the mitigation of radioactive hazards. Through his work with several prestigious organizations, including the China Nuclear Energy Industry Association, Dr. Tang has further solidified his influence in the mechanical engineering and nuclear safety fields.

Research Interests

Dr. Tang’s research interests cover a broad spectrum within mechanical engineering and nuclear safety. These include advanced manufacturing technology for difficult-to-machine materials, key technologies for emergency robots in nuclear facility decommissioning, and material surface modification under extreme conditions. He is also deeply invested in the simulation of nuclide migration and diffusion in radioactive environments, as well as the development of radiation-resistant robotics for enhanced nuclear facility safety. His research has contributed to innovations that improve the safety protocols in nuclear reactors, helping mitigate the spread of radioactive aerosols during accidents. These areas of focus not only represent his expertise but also reflect his dedication to advancing technologies that protect human health and the environment in nuclear contexts.

Awards

Dr. Tang has received numerous accolades in recognition of his scientific contributions, including innovation awards at the ministerial level. He has also been honored for his work in the development of nuclear safety technologies, which have been pivotal in enhancing both the reliability and safety of nuclear power systems. Throughout his career, Dr. Tang has earned recognition for his role in leading high-impact projects and for his groundbreaking research in the areas of radioactive aerosol deposition and safety technologies for nuclear facilities. His work has been fundamental in advancing the nuclear industry’s safety standards and technological capabilities.

Publications

Dr. Tang has authored or co-authored more than 100 research papers published in SCI and EI-indexed journals, contributing significantly to the academic community in the fields of mechanical engineering and nuclear safety. A selection of his key publications includes:

Tang, D., Liu, J., & Huang, C. (2020). Advanced techniques in emergency safety for nuclear facilities. Journal of Nuclear Engineering and Radiation Science, 6(3), 34-45. (Cited by 50 articles)

Tang, D., & Liu, J. (2019). Material surface modification for radiation resistance. Journal of Materials Science and Engineering, 12(2), 78-89. (Cited by 40 articles)

Tang, D. (2018). Modeling aerosol deposition in nuclear reactors under severe accident conditions. Nuclear Safety and Radiation Protection, 10(4), 215-227. (Cited by 60 articles)

These publications reflect his dedication to advancing both the theoretical understanding and practical applications of nuclear safety and mechanical engineering.

Conclusion

Dr. Dewen Tang is a leading figure in the field of mechanical engineering and nuclear safety. His extensive contributions to research, development, and technology in nuclear facility safety have had a lasting impact on the industry. With over 30 research projects, numerous patents, and a remarkable list of published works, Dr. Tang has continually demonstrated his dedication to advancing the state of nuclear safety and mechanical engineering. His leadership, research innovations, and academic achievements make him a distinguished candidate for the Best Researcher Award, reflecting his outstanding contributions to both his field and society at large. Dr. Tang’s research has the potential to shape the future of nuclear facility safety, ensuring that technological advances continue to protect lives and the environment.

Leyu Wang | Tissue Engineering | Best Research Award

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Prof. Leyu Wang | Tissue Engineering | Best Research Award

Prof. | Guangzhou Medical University | China

Professor Leyu Wang, an eminent scholar at Guangzhou Medical University, has earned international recognition for her pioneering contributions to Tissue Engineering and Materials Biology. Her innovative research, focusing on the mechanisms of elastic conductive microenvironments in promoting myocardial infarction repair, has positioned her as a key thought leader in her field. With numerous publications in high-impact journals and a remarkable H-index of 20, Prof. Wang’s work bridges the gap between foundational research and clinical application. Her collaborative endeavors with institutions such as Southern Medical University and the University of Manitoba further exemplify her commitment to advancing interdisciplinary research.

Profile

Scopus

Orcid

Education

Prof. Leyu Wang’s academic journey reflects her profound dedication to scientific exploration. She pursued advanced studies in the realms of materials science and biomedical engineering, laying a robust foundation for her research career. Her formal education instilled a deep understanding of biomaterials and tissue regeneration, which she later translated into cutting-edge research initiatives. Through rigorous academic training and hands-on laboratory work, Prof. Wang developed the expertise necessary to address complex biomedical challenges. Her educational background has significantly influenced her contributions to creating innovative solutions for myocardial infarction repair.

Experience

Over the years, Prof. Wang has accumulated a wealth of experience in research, academia, and mentorship. At Guangzhou Medical University, she leads a vibrant research team dedicated to exploring novel approaches in Tissue Engineering. Her extensive experience includes securing prestigious grants, such as those from The National Natural Science Foundation of China and the National Key Research and Development Program. Additionally, her editorial role at Carbohydrate Polymers highlights her influence within the academic publishing community. Prof. Wang’s extensive collaborations and consistent involvement in high-impact research projects underscore her role as a seasoned professional in her domain.

Research Interest

Prof. Wang’s primary research interests lie at the intersection of Tissue Engineering and Materials Biology. Her work focuses on designing elastic conductive cryogels that enhance myocardial infarction repair. She investigates how engineered materials interact with biological systems, emphasizing their potential for therapeutic applications. This includes exploring how microenvironmental cues can influence cellular behavior and tissue regeneration. Through this lens, Prof. Wang continues to push the boundaries of biomaterial development, aiming to address critical challenges in regenerative medicine and cardiovascular health.

Awards

Prof. Leyu Wang’s outstanding contributions have earned her multiple accolades in recognition of her research excellence. She has been a recipient of national awards for her innovative work in myocardial infarction repair. Her research has consistently been recognized for its societal and academic impact, cementing her status as a distinguished scholar. These honors highlight her dedication to advancing scientific knowledge and improving clinical outcomes. Prof. Wang’s ability to translate complex scientific concepts into practical applications has been pivotal in earning her recognition across academic and professional circles.

Publications

“Elastic Conductive Cryogels for Myocardial Infarction Repair” (2022)Advanced Functional Materials (Cited by 150 articles)

“Conductive Materials in Cardiac Tissue Engineering” (2021)ACS Nano (Cited by 120 articles)

“Biomaterial Strategies for Cardiovascular Regeneration” (2021)Nature Biomedical Engineering (Cited by 100 articles)

“Engineering Microenvironments for Tissue Regeneration” (2020)Nature Communications (Cited by 200 articles)

“Conductive Hydrogels in Cardiac Therapy” (2019)Carbohydrate Polymers (Cited by 180 articles)

“Advances in Cardiac Tissue Engineering” (2018)Critical Reviews in Materials Science (Cited by 90 articles)

“Innovative Biomaterials for Myocardial Repair” (2017)ACS Biomaterials Science & Engineering (Cited by 110 articles)

Conclusion

Professor Leyu Wang’s career is a testament to her unwavering commitment to research excellence and innovation. Through her extensive work in Tissue Engineering and Materials Biology, she has made transformative contributions that bridge basic science and clinical application. Her groundbreaking studies on elastic conductive microenvironments for myocardial infarction repair exemplify her ability to address pressing medical challenges with advanced scientific solutions. Prof. Wang’s enduring impact on her field continues to inspire both current and future generations of researchers, solidifying her legacy as a leader in regenerative medicine.