Dhekra Ben Amara | Circular Economy | Best Researcher Award

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Dr. Dhekra Ben Amara | Circular Economy | Best Researcher Award

Associate Professor | Qingdao Hengxing University of Science and Technology | China

Dr. Dhekra Ben Amara is an accomplished Associate Professor at Qingdao Hengxing University of Science and Technology, China, and a Postdoctoral Researcher in the Department of Geography and Environmental Science at Henan University, with expertise in Agricultural and Environmental Economics. She earned her Ph.D. in Agricultural Economics and Management from Northeast Forestry University, Harbin, China; an M.Sc. in Economy of Agriculture, Agri-food, and Environment; and an Engineering degree in Agricultural and Agri-food Economics and Management from the National Agronomic Institute of Tunisia, in addition to a Diploma in Biology–Geology Engineering Studies from the Faculty of Sciences of Tunis. Dr. Ben Amara’s academic journey reflects her deep commitment to sustainability science, eco-innovation, and green growth. Her research focuses on the intersections of climate change, circular economy, environmental policy, and green finance, using advanced econometric modeling to identify pathways for sustainable development. She has published extensively in leading journals, including Journal of Cleaner Production, Sustainable Development, Environment, Development and Sustainability, and Journal of Environmental Management. Beyond research, she has contributed to international projects such as the China–Tunisia collaboration on biomass valorization and bio-circular economy models. Her professional achievements include serving as a Reviewing Editor with Springer Nature Reviewer Communities and receiving multiple honors, such as the Best Researcher Award in Environmental Science and the Outstanding Graduate Award from Northeast Forestry University. Demonstrating strong academic influence and research productivity, Dr. Ben Amara has achieved 246 citations, 12 indexed documents, and an h-index of 8.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Ben Amara, D., & Chen, H. (2020). A mediation–moderation model of environmental and eco-innovation orientation for sustainable business growth. Environmental Science and Pollution Research, 27(14), 16916–16928.

2. Ben Amara, D., & Chen, H. (2022). Driving factors for eco-innovation orientation: Meeting sustainable growth in Tunisian agribusiness. International Entrepreneurship and Management Journal, 18(2), 713–732.

3. Ben Amara, D., & Qiao, J. (2023). From economic growth to inclusive green growth: How do carbon emissions, eco-innovation, and international collaboration develop economic growth and tackle climate change? Journal of Cleaner Production, 425, 138986.

4. Ben Amara, D., & Chen, H. (2020). Investigating the effect of multidimensional network capability and eco-innovation orientation for sustainable performance. Clean Technologies and Environmental Policy, 22(6), 1297–1309. 0

5. Ben Amara, D., & Chen, H. (2021). The impact of participative decision-making on eco-innovation capability: The mediating role of motivational eco-innovation factors. Environment, Development and Sustainability, 23(5), 6966–6986.

Marianna Vályi Nagy | Sustainability in Cryogenic Technologies | Best Researcher Award

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Ms. Marianna Vályi Nagy | Sustainability in Cryogenic Technologies | Best Researcher Award

Research assistant at Hungarian University of Agriculture and Life Sciences | Hungary

Marianna Vályi Nagy is a research assistant at the Hungarian University of Agriculture and Life Sciences (MATE), Institute of Agronomy, whose academic journey and professional career have been devoted to advancing sustainable agricultural practices. With a strong foundation in horticultural engineering, plant protection, and agronomy, she has established herself as a dedicated researcher focusing on mixed cropping systems, crop interactions, and climate-resilient agricultural methods. Her work bridges fundamental agricultural sciences with applied research, producing impactful results that contribute both to academic knowledge and to real-world agricultural innovations.

Professional Profile

ORCID

Education

Marianna began her academic journey at Corvinus University in Budapest, where she graduated as a Horticultural Engineer. Her interest in crop science and plant interactions motivated her to pursue further qualifications, and she later obtained a specialized degree in Plant Protection Engineering from the University of Szeged. Her commitment to higher learning led her to doctoral studies at the Hungarian University of Agriculture and Life Sciences, supported by the Young Researcher Training Program. Throughout her academic development, Marianna demonstrated a keen ability to integrate multiple disciplines within plant sciences, aligning her expertise with the pressing challenges of climate change, food security, and sustainable farming systems.

Experience

Marianna’s professional experience is rooted in her contributions to both research and applied agricultural innovation. She began her research career at the National Agricultural Research and Innovation Centre, where she gained valuable experience in experimental design and crop management practices. Later, she joined the Applied Agronomy Research Station, which became part of MATE, and contributed to experiments that combined scientific rigor with industry-driven needs. Over the years, she has participated in numerous commissioned research projects, collaborating with agricultural companies to test crop varieties, seeding strategies, and sustainable cultivation methods. This blend of academic and industry engagement has allowed her to create a research portfolio that is both scientifically robust and practically relevant.

Research Focus

Marianna’s primary research interests revolve around mixed cropping systems, with a particular emphasis on winter wheat–winter pea interactions. She explores the development process of companion crops, analyzing both their quantitative and qualitative characteristics. Her studies extend beyond traditional yield-focused research by considering plant development, interaction dynamics, seeding rates, and variety selection, providing a comprehensive understanding of crop coexistence. These investigations address one of the greatest challenges in modern agriculture: identifying cultivation methods that are environmentally sustainable, resilient to climate change, and adaptable to market fluctuations. Through her research, Marianna contributes to shaping agricultural practices that balance productivity with ecological responsibility.

Publication Top Notes

Title: Yield and Quality Parameters of Winter Wheat in a Wheat–Pea Mixed Cropping System
Authors: Marianna Vályi-Nagy, István Kristó, Melinda Tar, Attila Rácz, Lajos Szentpéteri, Katalin Irmes, Csaba Gyuricza, Márta Ladányi
Summary: This study evaluated wheat–pea intercropping, showing improved grain yield, protein content, and crop resilience, highlighting ecological and economic advantages compared to monoculture wheat cultivation.

Title: Competition Indices and Economic Benefits of Winter Wheat and Winter Peas in Mixed Cropping
Authors: Marianna Vályi-Nagy, István Kristó, Melinda Tar, Attila Rácz, Lajos Szentpéteri, Katalin Irmes, Gergő Péter Kovács, Márta Ladányi
Summary: Research analyzed competition indices and profitability of wheat–pea mixtures, concluding intercropping enhances land-use efficiency and offers greater economic sustainability than sole cropping systems.

Title: The Effect of Foliar Zinc Application on the Leaf Chlorophyll Concentrations and Grain Yields of the Winter Wheat (Triticum aestivum L.) in the Field Experiments of Two Seasons
Authors: Katalin Irmes, István Kristó, Lajos Szentpéteri, Attila Rácz, Marianna Vályi-Nagy, Mária Katalin Kassai, Klára Veresné Valentinyi, Melinda Tar
Summary: Two-season field trials revealed foliar zinc application increased chlorophyll levels and grain yields in winter wheat, emphasizing zinc’s critical role in improving crop productivity.

Title: Effects of Winter Cereals (Triticum aestivum L., Hordeum vulgare L., Triticosecale Wittmack) and Winter Pea (Pisum sativum L.) Intercropping on Weed Cover in South-Eastern and Central Hungary
Authors: Attila Rácz, Marianna Vályi-Nagy, Melinda Tar, Katalin Irmes, Lajos Szentpéteri, Apolka Ujj, Klára Veresné Valentinyi, Márta Ladányi, István Kristó
Summary: Field experiments demonstrated cereal–pea intercropping significantly reduced weed cover, promoting ecological weed management and enhancing sustainability in Hungarian winter cropping systems.

Conclusion

Marianna Vályi Nagy stands out as a promising researcher whose dedication to sustainable agriculture is evident in her academic achievements, applied research, and innovative contributions. Her expertise in mixed cropping systems addresses one of the most urgent agricultural challenges of our time—developing cultivation methods that align with ecological principles while ensuring productivity and resilience. With a growing body of publications, patents, and industry collaborations, she exemplifies the qualities of a forward-thinking researcher who bridges science and practice. Her membership in professional associations and recognition through national research programs further reinforce her position as an emerging leader in agricultural sciences. Marianna’s work holds significant potential to guide future research directions and agricultural policies, making her a strong candidate for the Best Researcher Award.

Xiaoliang Li | Micro Plastic | Best Researcher Award

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Dr. Xiaoliang Li | Micro Plastic | Best Researcher Award

Associate Chief Physician at The Third People’s of Zhuhai, China

Dr. Xiaoliang Li is an accomplished physician-scientist whose career bridges clinical excellence, research innovation, and academic leadership. Serving as Associate Chief Physician at Zhuhai Third People’s Hospital and Deputy Director of the Clinical Translation Center, he has developed a reputation for advancing preventive medicine and occupational health through rigorous clinical practice, impactful research, and knowledge dissemination. His professional affiliations, leadership roles in national and provincial health committees, and contributions as an editorial reviewer for leading international journals highlight his recognition as a trusted expert. With a strong foundation in preventive medicine and ongoing doctoral research in public health and preventive medicine, Dr. Li continues to integrate clinical expertise with cutting-edge scientific inquiry to address pressing health challenges.

Professional Profile

ORCID

Education

Dr. Li’s educational journey demonstrates his consistent commitment to excellence and innovation in medicine and public health. He began his academic career with a Bachelor of Science in Preventive Medicine from Hebei University, where he developed a solid foundation in disease prevention, epidemiology, and occupational health. Building on this, he pursued a Master of Science in Occupational and Environmental Health at Huazhong University of Science and Technology, which allowed him to deepen his expertise in environmental risk factors, workplace hazards, and their long-term health implications. His academic trajectory advanced further with his admission as a Ph.D. candidate in Public Health and Preventive Medicine at Huazhong University of Science and Technology, where he is investigating novel approaches to environmental and occupational health risks with an emphasis on translational medicine. This combination of progressive academic training has equipped him with the knowledge and research capacity to make sustained contributions to both theoretical and applied aspects of preventive medicine.

Experience

Dr. Li’s professional career is distinguished by a dual focus on clinical practice and research translation. At Zhuhai Third People’s Hospital, he holds the position of Associate Chief Physician, where he integrates evidence-based medicine with patient care in complex occupational and environmental health cases. His leadership extends to serving as Deputy Director of the Clinical Translation Center, a role that emphasizes his capacity to bridge laboratory discoveries with clinical applications. His expertise has been further recognized through appointments to multiple influential committees, including the Medical Ergonomics Committee of the Chinese Ergonomics Society, the Occupational Health and Engineering Evaluation Committee of the Guangdong Occupational Health Association, and the Guangdong Biomedical Engineering Society. In addition, he contributes to policy and practice as an expert in the Guangdong Prisoner Medical Evaluation Expert Database and as a health science popularization expert for the Zhuhai Municipal Health Bureau. Through these roles, he has helped shape policies, standards, and practices that promote both occupational safety and public health.

Research Focus

Dr. Li’s research contributions are at the intersection of occupational health, environmental exposures, and translational medicine. He has been actively engaged in national and regional research grants, serving as both principal investigator and co-investigator. His work under the National Natural Science Foundation of China explores the role of circular RNAs, particularly circCATE, in regulating the Wnt/β-catenin pathway during bronchial epithelial carcinogenesis in COPD induced by B(a)P exposure. This research provides critical insights into the molecular mechanisms linking environmental pollutants to chronic respiratory diseases. As principal investigator, he has led innovative projects funded by the Zhuhai Science and Technology Bureau, focusing on the role of marine, gut, and skin microbiomes in dermatophytosis among coastal populations. Additionally, his funded projects include occupational hazard characterization in new energy vehicle battery production and studies on pyrethroid exposure related to oxidative stress and male reproductive health. Collectively, these projects reflect his broad yet integrated research focus on the health impacts of environmental and occupational exposures, advancing knowledge that informs prevention, diagnosis, and clinical intervention.

Publication Top Notes

Title: Microplastics in the Lung Tissues Associated with Blood Test Index
Authors: Shuguang Wang, Wenfeng Lu, Qingdong Cao, Changli Tu, Chenghui Zhong, Lan Qiu, Saifeng Li, Han Zhang, Meiqi Lan, Liqiu Qiu, Xiaoliang Li, et al.
Journal: Toxics
Summary: Study reveals microplastics present in human lung tissues, correlating with blood test indicators, highlighting significant health implications from environmental exposure.

Title: Association of Shift-Work, Daytime Napping, and Nighttime Sleep with Cancer Incidence and Cancer-Caused Mortality in Dongfeng-Tongji Cohort Study
Authors: Xiaoliang Li et al.
Journal: Annals of Medicine
Summary: Large cohort study demonstrates associations between shift-work, sleep patterns, and elevated cancer incidence and mortality, emphasizing occupational and lifestyle health risks.

Title: Association of Body Mass Index with Chromosome Damage Levels and Lung Cancer Risk among Males
Authors: Xiaoliang Li et al.
Journal: Scientific Reports
Summary: Research links higher body mass index with increased chromosome damage and lung cancer risk, underscoring biological mechanisms of obesity-related carcinogenesis.

Title: The Interaction of APEX1 Variant with Polycyclic Aromatic Hydrocarbons on Increasing Chromosome Damage and Lung Cancer Risk among Male Chinese
Authors: Xiaoliang Li et al.
Journal: Molecular Carcinogenesis
Summary: Study identifies synergistic effects of APEX1 genetic variant and environmental hydrocarbon exposure, heightening chromosome damage and lung cancer susceptibility in males.

Conclusion

Dr. Xiaoliang Li exemplifies the integration of clinical expertise, research innovation, and academic leadership. His career is marked by substantial contributions to preventive medicine, occupational health, and environmental health, with a strong record of high-impact publications, funded projects, and intellectual property. As an educator, mentor, and reviewer for prestigious journals, he continues to influence scientific discourse and policy development. His leadership in national committees and public health initiatives underscores his dedication to improving population health and workplace safety. With his unique combination of clinical practice, translational research, and academic engagement, Dr. Li stands as a highly deserving candidate for this award, reflecting a career dedicated to advancing medical science and public well-being.

Hao Jiang | Cryogenic Recycling Technologies | Best Researcher Award

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Mr. Hao Jiang | Cryogenic Recycling Technologies | Best Researcher Award

Senior Manager at Construction Industry Council, Hong Kong

Hao Jiang is a highly accomplished engineering leader and innovator in the construction industry, serving as President-elect of the ASCE Greater China Section. With an extensive portfolio of leadership roles, professional affiliations, and research achievements, he is recognized for advancing modular integrated construction, high-performance materials, and robotics applications in construction. As Senior Manager of Industry Development at the Construction Industry Council, a statutory body established by the Hong Kong government, he oversees the Construction Productivity Department, managing the R&D Fund, manpower forecasting, and technology implementation. His exceptional contributions have earned multiple prestigious awards for innovation, sustainability, and professional excellence.

Professional Profile

Scopus Profile

Education

Hao Jiang holds a Bachelor of Engineering from Southeast University, a Master of Science from The Hong Kong University of Science and Technology, and dual Master of Business Administration degrees from Tsinghua University and Cornell University. This combination of technical expertise and advanced business acumen has enabled him to approach construction engineering challenges with both innovation and strategic insight. His academic foundation bridges engineering principles, applied research, and managerial leadership, equipping him to design and implement industry-wide solutions. His education also reflects a global outlook, combining leading institutions in Mainland China, Hong Kong, and the United States, which has broadened his perspective on international engineering practices.

Experience

In his current role as Senior Manager of Industry Development at the Construction Industry Council, Ir JIANG leads initiatives that directly impact the future of Hong Kong’s construction sector. He manages the council’s Construction Productivity Department, oversees research funding allocation, drives manpower forecasting, and champions the adoption of advanced technologies such as robotics to enhance productivity and safety. Before joining the CIC, he served as a Research Fellow at the Chinese National Engineering Research Centre for Steel Construction (Hong Kong Branch) at The Hong Kong Polytechnic University, where he advanced research on steel construction technologies. His professional journey also includes extensive involvement in key infrastructure and construction projects, demonstrating his ability to apply academic knowledge to real-world engineering challenges.

Research Focus

JIANG’s research interests center on modular integrated construction, high-performance materials, and cutting-edge construction technologies. He has contributed significantly to the integration of robotics into construction workflows, addressing industry needs for automation, efficiency, and safety enhancement. His work on modular construction has advanced prefabrication methodologies, improving project delivery speed and reducing environmental impact. In the area of high-performance materials, he has been involved in developing solutions that improve structural durability and sustainability. His efforts reflect a strong commitment to applying research outcomes to practical applications, bridging the gap between academic innovation and industry adoption.

Publication Top Note

Title: A meta-analysis of environmental impacts of building reuse and recycling
Authors: Bowen Zheng, Yang Yang, Albert Ping-chuen Chan, Hao Jiang, Zhikang Bao
Summary: This study synthesizes life cycle assessment (LCA) data to compare the environmental impacts of building reuse, recycling, and landfilling. Results show that reuse has substantially lower impacts than recycling, and recycling outperforms landfilling. Mass timber reuse and design-for-disassembly modular buildings perform especially well, with only 20–50% of the impacts of recycling. The authors recommend prioritizing reuse, then recycling, as sustainable waste management strategies in construction.

Conclusion

Hao Jiang is a distinguished engineering leader whose career blends technical expertise, research innovation, and strategic leadership. His work in modular integrated construction, high-performance materials, and robotics has positioned him at the forefront of modern construction technology advancement. Through his leadership roles, academic achievements, and industry contributions, he has significantly impacted both the Hong Kong construction sector and the global engineering community. His dedication to bridging research and industry, fostering sustainable practices, and embracing emerging technologies exemplifies the qualities of an outstanding award nominee. As ASCE Greater China Section President-elect, he continues to inspire innovation and set new benchmarks for excellence in the field of civil and structural engineering.