Minglu Zhang | Environmental Science | Best Researcher Award

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Prof. Dr. Minglu Zhang | Environmental Science | Best Researcher Award

Beijing University of Technology and Business | China

Dr. Minglu Zhang is currently a professor in the Department of Environmental Engineering at Beijing Technology and Business University, having previously served as associate professor (2015–2019) and lecturer (2012–2015) in the same discipline. After completing a postdoctoral appointment in the School of Environment at Tsinghua University (2010–2012) and earlier research experience at the University of California, Irvine (2008–2010), he has built a distinguished career in environmental microbiology and water systems research. His primary research interests encompass microbial ecology and molecular microbiology in water and solid waste systems, with a special focus on antibiotic-resistant bacteria and resistance genes in drinking water systems. Dr. Zhang has led and contributed to several major national research projects. For example, he is the principal investigator on the “Typing and Traceability System for VBNC State Pathogens of Major Digestive Tract at Ports” (2022–2025, National Key R&D Program), as well as on the “Technology and Equipment Development for Monitoring, Early Warning and Purification of Malodorous Gas Emissions under Classified Collection of Domestic Waste” (2020–2024, National Key R&D Program). Earlier, he also led work on the distribution and migration of antibiotic resistance genes at multi-phase interfaces in drinking water distribution systems (2015–2017, National Natural Science Foundation of China). To date, Dr. Zhang has authored or co-authored numerous peer-reviewed scientific publications. According to his ResearchGate profile, his publication count is 79, with more than 1,300 citations. His academic impact is further reflected by his h-index, which is listed as 5 on the SciSpace author profile. Among his representative works are: “Metagenomics analysis of antibiotic resistance genes, bacterial community and virulence factor genes of fouled filters and effluents from household water purifiers in drinking water” (Science of the Total Environment, 2023); “Global transcriptional analysis for molecular responses of Alicyclobacillus acidoterrestris spores in drinking water after low- and medium-pressure UV irradiation” (Journal of Hazardous Materials, 2024); and “Highly efficient degradation of ethanol, acetaldehyde, and ethyl acetate removal by bio-trickling filter reactors” (Process Safety and Environmental Protection, 2024). These works illustrate how he combines high-throughput molecular methods (e.g. metagenomics, transcriptional profiling) with applied engineering systems (e.g. drinking water treatment, gas emission purification) to address critical environmental microbiology challenges. Over the course of his career, Dr. Zhang has established himself as a leading scholar at the intersection of environmental engineering and microbial molecular ecology. His work not only advances fundamental understanding of microbial community dynamics and resistance gene behavior in engineered systems, but also yields practical solutions for water quality protection, public health, and waste management. His contributions are broadly recognized in China’s environmental research community and are increasingly cited in the international literature.

Profiles: Orcid

Featured Publications

Zhang, M., et al. (2025). Adsorption and desorption characteristics of nano-metal-modified zeolite for removal of oxygenated volatile organic compounds. Coatings, 15(10), 1206. https://doi.org/10.3390/coatings15101206

Jiang, J., Zhang, Y., Cui, R., Ren, L., Zhang, M., & Wang, Y. (2023). Effects of two different proportions of microbial formulations on microbial communities in kitchen waste composting. Microorganisms, 11(10), 2605. https://doi.org/10.3390/microorganisms11102605

Wang, Y., Cui, R., Jiang, H., Bai, M., Zhang, M., & Ren, L. (2022). Removal of hydrogen sulfide and ammonia using a biotrickling filter packed with modified composite filler. Processes, 10(10), 2016. https://doi.org/10.3390/pr10102016

Xu, S., Zhang, L., Lin, K., Bai, M., Wang, Y., Xu, M., Zhang, M., Zhang, C., Shi, Y., & Zhou, H. (2021). Effects of light and water disturbance on the growth of Microcystis aeruginosa and the release of algal toxins. Water Environment Research, 93, 2958–2970. https://doi.org/10.1002/wer.1644

Neha Priyadarshini | Coastal Environmental Change | Women Researcher Award

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Ms. Neha Priyadarshini | Coastal Environmental Change | Women Researcher Award 

NICMAR University |  India 

Neha Priyadarshini is a dedicated Ph.D. scholar specializing in coastal resilience, with a strong academic foundation and applied research expertise. Her work focuses on advancing dynamic shoreline analysis and predictive modeling, leveraging remote sensing, GIS, and artificial intelligence/machine learning (AI/ML) integration to address pressing challenges in coastal systems. With a deep commitment to sustainable and real-world solutions for vulnerable coastal zones, she blends rigorous research methodologies with practical engineering applications. She has hands-on technical proficiency in AutoCAD, STAAD Pro, MATLAB, and SPSS, which supports her multi-disciplinary research in coastal engineering, climate impact assessment, and shoreline management. Her research interests span shoreline change analysis, climate prediction models, coastal vulnerability assessments, and sustainable infrastructure development, making her a versatile researcher at the intersection of civil engineering and environmental science. Neha’s educational background includes a Ph.D. at NICMAR University, Pune, with a research emphasis on shoreline change analysis, ML-driven predictions, and coastal management strategies. She previously pursued her M.Tech in Civil Engineering at Odisha University of Technology & Research, focusing on groundwater quality prediction in Odisha. She also earned her B.Tech in Civil Engineering from VSSUT Burla, where her project involved RCC building analysis using STAAD Pro, and a Diploma in Civil Engineering from KIIT Polytechnic, where she worked on strength and durability of fly ash concrete versus crusher dust. Her accomplishments include presenting at the Indian Science Congress (2018) on concrete research, contributing a technical paper on differentiating graphene and graphite at the School of Civil Engineering, KIIT University, and winning the NIRIMINTEE 2018 Award. She was also recognized with the TunnelFem 2025 Special Jury Recognition Award (Ph.D. Starters Category) for her innovative contributions in sustainable infrastructure. Neha’s publications reflect her growing impact in the field. She authored 3 publications and her publications have started receiving citations, currently totaling 24 citations with an h-index of 1, reflecting both early recognition of her research contributions and significant potential for long-term academic impact.

Profiles: Scopus | Google Scholar

Featured Publications

“Influence of water binder ratio on strength and acid resistance of concrete made up of mineral admixture as supplementary cementitious material”.

“Simultaneous Optimization of Strength and Acid Resistance in Concrete Composed of Carbonated Fly Ash”.

“Coastal Erosion and Accretion Trends in Gujarat and Odisha: A 4-Decade Shoreline Study”.

 

Ying Zhang | Environmental Science | Best Researcher Award

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Assoc. Prof. Dr. Ying Zhang | Environmental Science | Best Researcher Award 

Assoc. Prof. Dr. Ying Zhang, Aerospace Information Research Institute, Chinese Academy of Sciences, China

Assoc. Prof. Dr. Ying Zhang is a renowned expert in atmospheric environment remote sensing at the Aerospace Information Research Institute, Chinese Academy of Sciences, China. She has published over 90 scientific papers and holds multiple patents in the field. Her pioneering work in particulate matter remote sensing and atmospheric composition inversion has been adopted by key institutions, including the China Meteorological Administration. Dr. Zhang has led numerous national and international research projects, received prestigious awards such as the Aerosol Young Scientist Award and China Patent Award, and collaborates globally with top research institutes in advancing environmental and atmospheric monitoring technologies.

Profile

Orcid

🎓 Early Academic Pursuits

Dr. Ying Zhang’s journey into the world of science began with a deep interest in environmental and atmospheric phenomena. Her academic foundation was solidified at the prestigious Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences (CAS), where she earned her Ph.D. in Remote Sensing. Her doctoral research focused on atmospheric environment remote sensing, laying the groundwork for a career dedicated to environmental monitoring through satellite data and advanced algorithms. Her early academic work reflected a blend of precision, curiosity, and a strong commitment to addressing environmental challenges through scientific innovation.

👩‍💼 Professional Endeavors

Currently serving as an Associate Professor at the Aerospace Information Research Institute, CAS, Dr. Zhang plays a vital role in advancing China’s capabilities in satellite-based environmental monitoring. Her professional journey includes participation in eight major national and international research projects, where she has worked extensively on atmospheric environmental remote sensing, air quality monitoring, and climate change analysis. In addition to her academic roles, she has provided critical consultancy as the Principal Investigator (PI) for three industry-linked projects in the meteorology and environmental protection sectors, bridging the gap between scientific research and practical application.

🔬 Contributions and Research Focus

Dr. Zhang is a pioneer in the field of remote sensing for atmospheric monitoring. Her research introduced the Multi-parameter Particulate Matter Remote Sensing (PMRS) approach, a breakthrough in differentiating anthropogenic and natural sources of air pollution using satellite data. This methodology has since been operationalized by the China Meteorological Administration for real-time haze monitoring via the FY-4 satellite. Furthermore, she developed a remote sensing inversion method for determining the chemical composition of atmospheric particulates—now utilized by over ten institutions through the SONET (Sun-Sky Radiometer Observation Network).

Her academic contributions include the authorship of over 90 scientific papers, 70 of which are indexed in the Web of Science Core Collection, earning her over 1,654 citations. She has also co-authored two monographs, one in English and another in Chinese, showcasing her ability to communicate complex scientific ideas to both domestic and international audiences.

🏆 Accolades and Recognition

Dr. Zhang’s exceptional contributions have earned her numerous prestigious awards that underscore her scientific impact. These include:

  • 🥇 Aerosol Young Scientist Award

  • 🧪 Beijing Natural Science Award

  • 🌱 Environmental Protection Science and Technology Award

  • 💡 China Patent Award for Excellence

These accolades not only highlight her technical excellence but also recognize her contributions to environmental sustainability and public health through improved monitoring systems and methodologies.

🌍 Impact and Influence

Dr. Zhang’s research has had a significant real-world impact. By advancing remote sensing techniques, her work has strengthened China’s environmental monitoring infrastructure, particularly in tracking air pollution and climate change. Her PMRS method is a cornerstone in national haze monitoring operations, while her composition inversion techniques have empowered research institutions and meteorological agencies to better understand and respond to pollution events.

In addition to her scientific output, she has actively shaped the research community through editorial roles, including guest editor positions at Remote Sensing and Atmosphere, and as an editorial board member of China Environmental Monitoring. Her collaborative efforts span across leading international institutions such as the Royal Netherlands Meteorological Institute, Japan Agency for Marine-Earth Science and Technology, University of Lille, and the University of Wisconsin-Madison—promoting global dialogue and cooperation in environmental science.

🧬 Legacy and Future Contributions

Dr. Zhang’s legacy is one of bridging theory and application, with her innovations in remote sensing poised to continue benefiting both scientific communities and policy-making bodies. Her leadership and contributions serve as an inspiration for young scientists, particularly women in STEM, and her methodologies are likely to influence future developments in artificial intelligence-driven remote sensing, big data atmospheric modeling, and international climate change monitoring frameworks.

Looking ahead, Dr. Zhang is expected to further explore multi-source data integration, enhancing the precision and scope of environmental monitoring systems. With 10 invention patents already published and 4 more under process, her work continues to shape the evolving landscape of atmospheric sciences and remote sensing technology.

Publication Top Notes

Inversion of the global carbonaceous aerosol components (CACs) based on ground-based remote sensing of AERONET

ContributorsZhuolin Yang; Ying Zhang; Yisong Xie; Hua Xu; Chaoyu Yan; Tong Hu; Zhengqiang Li
Journal: Environment International
Year: 2025

Aerosol Optical Depth Retrieval Over Land from Particulate Observing Scanning Polarimeter (POSP) Using a New Look-Up Table (LUT) Method

Contributors: Zhe Ji; Zhengqiang Li; Ying Zhang; Yan Ma; Zheng Shi; Xiaoxi Yan; Yisong Xie; Yang Zheng; Zhenting Chen
Journal: Aerosol Science and Engineering
Year: 2024