Mahmoud Salari | Climate Change Mitigation and Adaptation | Best Researcher Award

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Dr. Mahmoud Salari | Climate Change Mitigation and Adaptation | Best Researcher Award

Associate Professor | California State University, Dominguez Hills | United States

Dr. Mahmoud Salari is an economist whose research explores the intersections of energy policy, environmental sustainability, public health, and economic development. As an Associate Professor at California State University, Dominguez Hills, he has published extensively on renewable and non-renewable energy consumption, CO₂ emissions, household energy demand, gender and labor outcomes, and the economic impacts of transportation systems. His work integrates advanced econometric methods to address real-world challenges, from clean energy transitions to health inequalities. Driven by a commitment to evidence-based policy, Dr. Salari continues to advance impactful research that supports sustainable growth and societal well-being.

Citation Metrics (Scopus)

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Citations
578

Documents
15

h-index
8


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Top 5 Featured Publications

Guangyang Liu | Environmental Risk Assessment | Research Excellence Award

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Prof. Guangyang Liu | Environmental Risk Assessment | Research Excellence Award

Deputy director | Chinese Academy of Agricultural Sciences | China

Prof. Guangyang Liu is a Research Fellow, Ph.D. supervisor, and CAAS Young Talent at the Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences (CAAS). His research focuses on nutritional quality and safety control of vegetable products, integrating multidisciplinary approaches across analytical chemistry, horticulture, nanoscience, and materials science. His work aims to address global challenges in food safety, sustainable agriculture, and public health through innovative nanotechnology-enabled solutions. Dr. Liu has made notable contributions to the development of advanced porous organic nanomaterials, the detection and control of agricultural chemical contaminants, and the enhancement of nutritional quality in vegetables. He has successfully established a comprehensive technology system that supports new nanomaterial creation, rapid pollutant detection, controlled removal, and the separation and purification of bioactive compounds. His research outcomes have significantly advanced risk assessment, quality evaluation, and safety assurance in vegetable production. He has published 129 academic papers, including 90 SCI papers, with 56 as first or corresponding author in leading journals such as Chemical Engineering Journal, Journal of Hazardous Materials, TrAC Trends in Analytical Chemistry, and Food Chemistry. His publications have achieved a cumulative impact factor exceeding 395, with 21 papers in journals of impact factor above 8, and 12 above 10. His work has earned two ESI Highly Cited Papers and an H-index of 32. Dr. Liu holds 22 authorized invention patents, has edited multiple monographs, and contributed to national agricultural standards. His achievements have been widely recognized, including the National Commercial Science and Technology Progress Award (First Prize), CAAS Young Talent honors, Sigma Xi Full Membership, and listing among the World’s Top 2% Scientists. He serves on expert panels, editorial boards, and international review committees, reinforcing his influence in advancing global food safety and agricultural sustainability.

Research Profiles: Scopus | ORCID
Publications

Analysis of microstructure properties of Ni–Fe MOFs and their influence on selective recognition of single and binary dye systems. npj Clean Water. (2 citations)

Enhanced insecticidal activity and bioavailability of thiacloprid from pH-responsive porous MPN(Fe)@ZIF-8 nanocarrier. Journal of Cleaner Production.

Coral-like magnetic metal–organic framework for selective adsorption and detection of thiabendazole in tomato and Chinese cabbage samples. Foods.

Matrix interference of vegetable on enzyme-linked immunosorbent assay for parathion residue detection. Foods.

Cheng Yan | Sustainable Development | Best Researcher Award

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Prof. Dr. Cheng Yan | Sustainable Development | Best Researcher Award

Deputy Dean of the School of Artificial Intelligence | Jiangxi Normal University | China

Prof. Dr. Cheng Yan is a Professor and doctoral supervisor specializing in intelligent information processing, deep learning and affective computing, artificial intelligence and big data, and intelligent education. She earned her PhD from Tongji University and completed a postdoctoral fellowship at the university’s Computer Science and Technology Mobile Station. She has also undertaken academic visiting research at California State University, Fullerton (CSUF), in the United States. Since 2012, she has held the rank of professor. Dr. Cheng currently serves as Vice Dean of the School of Artificial Intelligence at Jiangxi Normal University, overseeing research and graduate education. She is also Director of the Jiangxi Provincial Key Laboratory of Intelligent Information Processing and Affective Computing, as well as a recognized provincial academic and technical leader. She has been selected for the national “Western Light” Talent Program. She holds multiple professional roles, including committee member and Deputy Secretary-General of the Intelligent Education Committee of the Chinese Association of Automation, and Chair of the Intelligent Education Committee of the Jiangxi Digital Economy Society. She is an expert reviewer for the National Natural Science Foundation of China, National Social Science Fund projects, degree thesis evaluations of the Ministry of Education, and several provincial scientific and technological programs. She serves as reviewer and editorial board member for multiple leading domestic and international journals. Dr. Cheng has led four national-level research projects and over twenty major or key provincial projects, and has participated in national key research initiatives such as the “Tenth Five-Year” major project on network education. She has published over 70 SSCI, SCI, EI, and CSSCI-indexed papers, authored two monographs, and supervised students who have received national and provincial scholarships and academic honors. Her work has earned numerous awards, including Best Research Award, Young Scientist Award, provincial first prizes in teaching and scientific research, and multiple patents and software copyrights. Her research continues to contribute significantly to the advancement of intelligent education and artificial intelligence applications.

Profile: Scopus
Publications

An expensive multi-objective evolutionary algorithm based on grid and relation learning. Applied Soft Computing.

Study on interpretable shallow class activation mapping algorithm based on spatial weights and inter-layer correlation. Computer Science China.

Semantic injection and multi-scale cross-axis attention-based portrait segmentation model. Signal, Image and Video Processing.

Bahadur Ali Soomro | Green Infrastructure | Best Researcher Award

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Dr. Bahadur Ali Soomro | Green Infrastructure | Best Researcher Award

Research Fellow | University of Sindh, Jamshoro | Pakistan

Dr. Bahadur Ali Soomro has built a strong research profile rooted in diverse technical projects, hands-on engineering experience, and well-defined research interests that span structural analysis, soil behavior, project development, safety assessment, and material performance, allowing him to integrate practical industry exposure with focused scientific inquiry. His work reflects significant involvement in structural evaluation, dynamic response assessment, and infrastructure development, particularly through participation in government-linked and field-oriented projects that strengthened his understanding of construction processes, quality control, and performance monitoring of civil engineering systems. His research interests include advanced structural modeling, geotechnical behavior under varying load conditions, sustainable construction materials, concrete performance enhancement, soil stabilization techniques, and the development of safe, efficient, and durable structural systems fit for both urban and rural applications. He has contributed to multiple research-driven activities such as analyzing structural elements, preparing project documentation, conducting materials inspection, and applying engineering standards within construction environments. His work experience further includes surveying tasks, site supervision, structural drawings, BOQ preparation, and assisting in multidisciplinary projects, all of which support his research direction by providing real-world data, practical constraints, and implementation challenges. He has explored topics such as structural capacity evaluation, performance of building components under environmental stresses, and the application of modern engineering tools for analysis and design. His research-related activities also extend to participating in technical events, contributing to seminars and workshops, and engaging with innovative engineering solutions linked to public infrastructure. With experience in project execution, safety implementation, field testing, and documentation, he continues to refine his investigative skills and aims to expand research on advanced materials, resilient infrastructures, modern construction technologies, and performance-based design methods that contribute to sustainable development and improved engineering practice.

Profile: Google Scholar
Publications:

Soomro, B. A., & Shah, N. (2019). Determining the impact of entrepreneurial orientation and organizational culture on job satisfaction, organizational commitment, and employee’s performance. South Asian Journal of Business Studies, 8(3), 266–282.

Abdelwahed, N. A. A., Soomro, B. A., & Shah, N. (2023). Predicting employee performance through transactional leadership and entrepreneur's passion among the employees of Pakistan. Asia Pacific Management Review, 28(1), 60–68.

Shah, N., & Soomro, B. A. (2023). Effects of green human resource management practices on green innovation and behavior. Management Decision, 61(1), 290–312.

Soomro, B. A., & Shah, N. (2022). Entrepreneurship education, entrepreneurial self-efficacy, need for achievement and entrepreneurial intention among commerce students in Pakistan. Education + Training, 64(1), 107–125.

Soomro, B. A., & Shah, N. (2015). Developing attitudes and intentions among potential entrepreneurs. Journal of Enterprise Information Management, 28(2), 304–322.

Zhou Jingya | Environmental Engineering | Best Researcher Award

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Zhou Jingya | Environmental Engineering | Best Researcher Award

Yanbian University | China

Zhou Jingya, a lecturer at the College of Geography and Ocean Science, Yanbian University, has developed a strong academic foundation in marine engineering, corrosion science, and environmental protection. Her research focuses on the interaction between marine microbial activities and material degradation, emphasizing sustainable and resilient solutions for oceanic infrastructure. Zhou has played a significant role in several prestigious national projects, including studies funded by the National Natural Science Foundation of China on targeted antibacterial nanomaterials, the engineering behavior of calcareous sand in the South China Sea, and the combined effects of sea-ice cycles and microbial corrosion on marine structures. As the principal investigator of multiple projects, including those supported by the Jilin Provincial Department of Education and Yanbian University, Zhou explores green concrete and microbial self-healing systems in the context of carbon neutrality and cross-border water pollution mitigation. Her scientific contributions are marked by first and corresponding author roles in several high-impact journals such as International Biodeterioration & Biodegradation, Ocean Engineering, Materials, and Microorganisms. Notable publications include research on microbial-induced concrete corrosion and dynamic sulfur cycle modeling in urban sewage systems under extreme environmental conditions. She has also authored a technical book titled Microbial Evaluation and Management Techniques for High-Temperature and High-Salt Urban Sewage Pipelines (2025), reflecting her applied expertise in environmental microbiology. Zhou’s innovative approach combines advanced imaging, biofilm modeling, and multivariate analyses to uncover new mechanisms of material-environment interactions. Her teaching excellence is evidenced by award-winning work on blended learning for environmental bioremediation engineering. With a growing academic influence, reflected in multiple SCI-indexed papers and leadership in interdisciplinary projects, Zhou continues to advance sustainable engineering solutions at the intersection of microbiology, materials science, and marine environmental systems.

Profile: ORCID
Fearuted Publications:

  • Zhang, X., Li, Y., Wang, J., & Liu, H. (2025). Dynamic modeling of the sulfur cycle in urban sewage pipelines under high-temperature and high-salinity conditions. Microorganisms, 13(7), 1534.

  • Zhang, X., Li, Y., Wang, J., & Liu, H. (2025). Mapping the knowledge domain of ocean acidification impacts on marine microbial communities: Visual exploration based on CiteSpace. Preprints.

Xiaoshuang Shi | Solid Waste Management | Best Researcher Award

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Assoc. Prof. Dr Xiaoshuang Shi | Solid Waste Management | Best Researcher Award

Associate Professor at Sichuan University | China

Xiaoshuang Shi is a leading researcher and Associate Professor at Sichuan University, specializing in civil engineering with a focus on sustainable construction practices. With a strong academic foundation and extensive contributions, Shi has been instrumental in developing green and low-carbon building technologies. Her research integrates innovative materials science with engineering applications, emphasizing durability and environmental sustainability. Over the years, she has successfully led numerous projects and collaborations with universities and industries, contributing significantly to technological advancements. Her work has helped bridge the gap between research and practical applications, positioning her as a key contributor to civil and environmental engineering.

Professional Profile

ORCID

Education

Shi completed her Ph.D. in Civil Engineering in 2011, having undergone joint training at Monash University in Australia during her doctoral studies. Her academic journey reflects a consistent commitment to excellence and innovation in engineering. After earning her doctorate, she joined Sichuan University in 2012, further strengthening her expertise in sustainable construction technologies. With a focus on low-carbon and environmentally friendly engineering solutions, Shi has demonstrated exceptional academic growth. Her research and education align closely, creating a strong foundation for her contributions in areas such as building material development, solid waste utilization, and reinforced concrete durability improvements.

Professional Experience

Shi’s professional journey demonstrates a blend of research leadership, academic service, and industry collaboration. She currently serves as an Associate Professor at Sichuan University and holds key positions in multiple expert committees and professional organizations. As a recognized figure in civil engineering, she has served as a provincial academic and technical leader candidate and contributed as an expert within Sichuan’s provincial expert group. Her industry collaborations have successfully applied advanced building materials to major infrastructure projects. Shi also actively participates in editorial boards, demonstrating her expertise in guiding the future of sustainable and resilient civil engineering practices globally.

Research Interest

Shi’s research focuses on the development of sustainable building materials and structural engineering innovations. Her work primarily explores low-carbon and long-life building materials, solid waste resource utilization, and the durability of reinforced concrete structures. With an emphasis on environmental impact reduction, she has established innovative design methods for waste-based cementitious materials. This research aims to balance performance, cost-effectiveness, and sustainability while meeting the growing demand for eco-friendly construction. Her approach integrates material science, structural analysis, and advanced testing, contributing to significant advancements in engineering practices. Shi’s projects reflect her dedication to innovation, environmental responsibility, and engineering excellence.

Award And Honor

Xiaoshuang Shi has received recognition for her outstanding contributions to civil engineering research, particularly in sustainable building material development. She has been honored with the Sichuan Provincial Youth Science and Technology Award, reflecting her early career excellence. In addition, she was awarded the First Prize of Sichuan Provincial Science and Technology Progress Award for her innovative work. Her nomination for the Best Researcher Award further demonstrates her influence in the field. Shi’s leadership roles and active membership in professional organizations emphasize her expertise and dedication, making her a respected authority in environmental sustainability and material innovation.

Research Skill

Shi has cultivated a diverse skill set that integrates academic research, engineering design, and material innovation. She is proficient in developing advanced cementitious materials using multi-source solid waste, contributing to low-carbon industrial practices. Her expertise extends to material testing, structural durability analysis, and microstructural investigation, enabling the creation of high-performance construction materials. Shi’s leadership in managing national and provincial projects demonstrates her project management capabilities. She also excels in cross-disciplinary collaborations, technical consultancy, and industrial implementation of research findings. Her editorial and committee roles further showcase her ability to influence research directions, establish standards, and guide sustainable engineering advancements.

Publications

Shi has an extensive publication record, with 72 research articles published in prominent SCI and Scopus-indexed journals. Her work emphasizes material science innovations, sustainable construction practices, and engineering applications. She has contributed significantly to the understanding of microstructural characteristics and performance regulation mechanisms in cementitious materials. Additionally, Shi has authored three books with ISBN registrations, offering valuable academic resources to students and professionals. Her publications reflect a strong balance between theoretical advancements and practical applications. She is actively involved as a guest editor and young editor in prestigious journals, further demonstrating her leadership in shaping engineering research discourse.

Title: Research and Prospects of Airtightness of Biological Laboratory Enclosures: Influencing Factors and Evaluation Methods
Year: 2025

Title: Comprehensive Evaluation of the Performance and Benefits of SSA–GGBS Geopolymer Mortar
Year: 2023

Title: Study on Improving Measures of Mechanical Properties of Geopolymer Materials and Its Effect on CO2 Emission
Year: 2023

Title: Experimental Analysis and Establishment of Strength Attenuation Model of POM Fiber Reinforced Geopolymeric Recycled Concrete under Freeze-Thaw Cycles
Year: 2023

Title: Life Cycle Assessment and Impact Correlation Analysis of Fly Ash Geopolymer Concrete
Year: 2021

Conclusion

Xiaoshuang Shi’s career exemplifies excellence in civil and environmental engineering, with a clear focus on sustainable and innovative building solutions. Through her leadership, she has driven impactful research on solid waste utilization and low-carbon materials, contributing both academically and industrially. Her recognition through awards and professional memberships demonstrates her influence in engineering advancements. Shi’s publications, patents, and applied projects highlight her role as a bridge between research and practice. Her dedication to developing environmentally responsible engineering solutions continues to position her as a leading researcher in sustainable infrastructure and a valuable contributor to global engineering innovation.