Jingying Mao | Environmental Science | Women Researcher Award

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Dr. Jingying Mao | Environmental Science | Women Researcher Award

Deputy Director from Scientific Research Academy of Guangxi Environmental Protection, China

Jingying Mao is a Senior Engineer at the Guangxi Environmental Protection Scientific Research Institute, specializing in atmospheric environment and climate change. With a strong educational foundation in ecology and environmental engineering, Mao has developed extensive expertise in air pollution control, atmospheric chemical modeling, and climate impact assessments. Over the years, Mao has significantly contributed to the understanding of aerosol formation, ozone control strategies, and pollutant transport mechanisms in various regional and global contexts. Her leadership in multiple National Natural Science Foundation projects and provincial scientific initiatives demonstrates her capacity for high-level scientific research and project management. Mao’s representative works have been published in internationally recognized journals such as Journal of Geophysical Research: Atmospheres, Science of the Total Environment, and Elementa: Science of the Anthropocene. She has also played key roles in collaborative studies addressing complex air quality issues in China. Her research achievements have been acknowledged through several provincial awards, including second-class prizes in Guangxi Science and Technology Progress. Through her rigorous scientific contributions and dedication to environmental protection, Mao has become a respected figure in the atmospheric science community, making meaningful strides in pollution control and climate impact research.

Professional Profile

Education

Jingying Mao holds a Ph.D. in Ecology from Jinan University (2017–2021), where she deepened her expertise in atmospheric sciences and climate interactions. She completed her Master’s degree in Environmental Engineering at Southwest Jiaotong University (2009–2012), focusing on advanced environmental protection techniques and pollution management. Her undergraduate studies were conducted at Guangxi Normal College (2005–2009), where she earned a Bachelor’s degree in Environmental Science, laying the foundational knowledge in environmental systems and resource management. Throughout her academic journey, Mao demonstrated a consistent focus on environmental issues, particularly air pollution and climate dynamics, which shaped her professional path toward becoming a leading researcher in atmospheric environment and climate change. Her educational background is distinguished by a clear progression toward specialization in air quality modeling, atmospheric chemistry, and pollutant mitigation strategies.

Professional Experience

Mao Jingying currently serves as a Senior Engineer at the Guangxi Environmental Protection Scientific Research Institute’s Atmospheric Environment and Climate Change Research Center (since December 2022). Before this, she held the role of Engineer within the same center from December 2021 to November 2022 and at the Atmospheric Environment Research Center from July 2015 to July 2017. Her initial position at the institute was within the Environmental Analysis and Heavy Metal Pollution Control Center from July 2012 to June 2015. Across these roles, Mao has accumulated over a decade of experience in atmospheric pollution monitoring, climate modeling, and the development of emission reduction strategies. Her responsibilities have included leading major research projects, contributing to national and provincial environmental initiatives, and publishing impactful research in prestigious journals. Mao’s consistent career trajectory within the Guangxi Environmental Protection Scientific Research Institute illustrates her deep-rooted commitment to environmental improvement and scientific advancement.

Research Interests

Jingying Mao’s primary research interests include atmospheric chemistry, air quality modeling, secondary organic aerosol (SOA) formation, and the impacts of climate change on atmospheric processes. She is particularly focused on the temporal and spatial distribution of IEPOX-SOA (isoprene epoxydiol-derived SOA) in the troposphere and its radiative effects, which she investigates through numerical simulations. Mao is also engaged in studying nitrate aerosols in the stratosphere and their influence on climate dynamics. Her work extends to the development of coordinated emission reduction strategies and the assessment of pollutant sources through both field measurements and chemical transport models. Mao’s studies on ozone control strategies and pollutant transport mechanisms aim to provide actionable solutions for urban and regional air quality management. Her diverse research portfolio contributes significantly to the broader understanding of atmospheric processes and their environmental consequences.

Research Skills

Mao Jingying possesses advanced research skills in atmospheric chemical transport modeling using tools like WRF-Chem and MOSAIC, chemical characterization of aerosols, and source apportionment techniques. She is proficient in designing and conducting large-scale environmental monitoring campaigns, analyzing time-resolved aerosol data, and integrating field observations with numerical simulations. Mao’s expertise also includes regional climate impact assessments, chemical data interpretation, and multi-pollutant control strategy evaluation. Her strong analytical abilities are complemented by a solid understanding of environmental policy and regulatory frameworks, which enhances her capacity to develop practical solutions for air pollution control. Additionally, Mao’s collaborative research experience and multidisciplinary approach have enabled her to address complex atmospheric challenges effectively.

Awards and Honors

Jingying Mao has received several notable scientific recognitions at the provincial level. She was awarded the Guangxi Science and Technology Progress Award (Second Class) in 2023 for her contribution to regional atmospheric research and pollution control strategies. In 2019, she was honored again by the Guangxi People’s Government for her involvement in collaborative air quality studies. Additionally, she received the Guangxi Social Science Excellent Achievement Award in 2018 for her multi-authored research addressing environmental challenges in the region. These accolades highlight her impactful contributions to both scientific advancement and environmental protection in Guangxi. Mao’s continuous recognition through competitive awards reflects her dedication, innovative research, and leadership in atmospheric science.

Conclusion

Jingying Mao is a highly qualified atmospheric scientist with substantial expertise in air pollution modeling, aerosol chemistry, and climate impact studies. Her educational background, professional experience, and successful leadership in both national and regional research projects position her as a valuable contributor to the field of atmospheric environment and climate change. Mao’s research is not only scientifically rigorous but also practically oriented, focusing on developing strategies for pollution control and environmental sustainability. Her recognized contributions and award-winning projects demonstrate her influence and growing leadership within the scientific community. Moving forward, Mao is well-positioned to expand her research on the interaction between atmospheric processes and climate dynamics, furthering her contributions to solving pressing environmental issues.

Publications Top Notes

  • Pollution characteristics of peroxyacetyl nitrate in karst areas in Southwest China

    • Authors: Songjun Guo, Xu Wei, Hongjiao Li, Wen Qin, Yijun Mu, Jiongli Huang, Chuan Nong, Junchao Yang, Dabiao Zhang, Hua Lin, Jingying Mao

    • Year: 2023

  • Ozone control strategies for local formation- and regional transport-dominant scenarios in a manufacturing city in southern China

    • Authors: Jingying Mao, Fenghua Yan, Lianming Zheng, Yingchang You, Weiwen Wang, Shiguo Jia, Wenhui Liao, Xuemei Wang, Weihua Chen

    • Year: 2022

  • Evaluation of Biogenic Organic Aerosols in the Amazon Rainforest Using WRF‐Chem With MOSAIC

    • Authors: Jingying Mao, Luxi Zhou, Liqing Wu, Weihua Chen, Xuemei Wang, Pengfei Yu

    • Year: 2021

  • Comparative study of chemical characterization and source apportionment of PM2.5 in South China by filter-based and single particle analysis

    • Authors: Jingying Mao, Liming Yang, Zhaoyu Mo, Zongkai Jiang, Padmaja Krishnan, Sayantan Sarkar, Qi Zhang, Weihua Chen, Buqing Zhong, Yuan Yang

    • Year: 2021

  • A Comparative Study on Air Pollution Characteristics in Four Key Cities during 2013 in Guangxi Province, China

    • Authors: Jing-Ying Mao, Zhi-Ming Chen, Zong-Kai Jiang, Zhao-Yu Mo, Hong-Jiao Li, Fan Meng, Bei Chen, Hui-Jiao Ling, Hong Li

    • Year: 2021

  • Highly time-resolved aerosol characteristics during springtime in Weizhou Island

    • Authors: Jingying Mao, Zhiming Chen, Zhaoyu Mo, Xiaoyang Yang, Hong Li, Yonglin Liu, Huilin Liu, Jiongli Huang, Junchao Yang, Hongjiao Li

    • Year: 2018

Xinjian Fan | Environmental Science | Best Researcher Award

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Mr. Xinjian Fan | Environmental Science | Best Researcher Award

Associate Professor from Lanzhou University of Technology, China

Dr. Fan Xinjian is an esteemed associate professor and master’s supervisor specializing in water conservancy and hydropower engineering. He currently serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. A graduate with a Ph.D. in Engineering from the Nanjing Hydraulic Research Institute, Dr. Fan has significantly contributed to the academic and professional landscape of hydraulic engineering in China. With a research portfolio spanning over 50 national, provincial, and enterprise-level projects, his work has brought forth practical solutions to some of the field’s most complex problems, including high arch dam flood discharge and energy dissipation mechanisms. As a dedicated educator, he integrates scientific research with hands-on learning experiences for students, having led numerous teaching and innovation projects. His contribution is well-recognized through various awards and honors in both research and teaching. Dr. Fan’s expertise in ecological hydraulics, computational hydraulics, and sediment dynamics makes him a leading authority in his field. His profile is a model of how academic leadership, research excellence, and practical application can come together to support national infrastructure and environmental goals, making him a strong candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Fan Xinjian holds a Doctorate in Engineering from the prestigious Nanjing Hydraulic Research Institute. His advanced education laid a strong foundation in the theoretical and applied aspects of water resources and hydraulic engineering. At the doctoral level, he received specialized training in computational and ecological hydraulics, river basin management, sediment transport dynamics, and energy dissipation mechanisms. His academic training was reinforced with hands-on research experience, equipping him to tackle real-world engineering problems with a research-driven approach. Dr. Fan’s formal education combined rigorous academic coursework with practical application, which played a key role in developing his expertise in high-head hydropower systems, open channel flow analysis, and hydraulic structure optimization. The interdisciplinary exposure during his Ph.D. has enabled him to effectively bridge theory and practice, particularly in hydrological modeling, flow dynamics, and flood risk mitigation. His educational background continues to inform his ongoing research, teaching, and innovation work, as he trains the next generation of hydraulic engineers. His ability to translate complex hydraulic theories into practical designs and policies is a direct reflection of the quality of education he received and the dedication he has shown throughout his academic journey.

Professional Experience

Dr. Fan Xinjian brings over two decades of academic and research experience in hydraulic and water resources engineering. He serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. He also leads the provincial experimental teaching demonstration center and coordinates the Hongliu First-Class Major in Water Conservancy and Hydropower Engineering. His professional journey includes leadership of more than 50 national and provincial-level projects, including the National Natural Science Foundation, National Science and Technology Support Plan, and international cooperative research initiatives. Dr. Fan is a member of key professional bodies such as the Chinese Hydraulic Society, the Gansu Hydraulic Society, and the Chinese Hydropower Engineering Society. In his academic capacity, he has developed and delivered core undergraduate and graduate-level courses, including “Introduction to Water Conservancy Engineering” and “Hydraulic Structures.” He has also supervised numerous graduation theses, practical internships, and student design projects. His leadership in project management, educational innovation, and engineering applications exemplifies a strong blend of research, teaching, and community engagement. Dr. Fan’s professional experience highlights his comprehensive understanding of the hydraulic engineering landscape, making him a well-respected figure in both academic and engineering circles.

Research Interest

Dr. Fan Xinjian’s primary research interests lie in the fields of computational hydraulics, ecological hydraulics, hydraulic structures, and river basin sediment dynamics. His research is driven by the need to address real-world water conservancy challenges, especially in mountainous terrains and regions with high-head dams. One of his key interests is the study and optimization of flood discharge and energy dissipation systems for large-scale hydropower structures. He has made significant contributions to this area through research on the Jinping I high arch dam and Longkoukou dam systems. His work extends to understanding the interactions between water and vegetation in open channels, particularly under the influence of submerged flexible vegetation. This research sheds light on resistance, flow patterns, and sediment transport—critical elements for ecological conservation and hydraulic modeling. He is also keenly interested in developing digital simulation systems that integrate ecological and engineering hydraulics for better river management. These interests align closely with the pressing global issues of sustainable water infrastructure, flood management, and river ecosystem restoration. Dr. Fan’s multi-disciplinary approach enables him to contribute novel insights and engineering solutions that combine hydrodynamics, environmental science, and computational modeling.

Research Skills

Dr. Fan Xinjian possesses a broad range of research skills that enable him to approach hydraulic engineering problems from both theoretical and applied perspectives. He is highly proficient in computational modeling and simulation, which he uses to analyze complex water flow and energy dissipation systems. His skills include the development of numerical models to assess flood discharge, turbulence, and sediment transport in both natural and engineered waterways. He is adept at laboratory-based experimental research, having led physical modeling studies on high-velocity flow and bottom plate energy dissipation devices. In addition, Dr. Fan is skilled in data analysis, using modern hydraulic measurement tools and statistical software to interpret flow dynamics and optimize hydraulic structures. He also has experience in drafting technical reports, scientific papers, and patent documentation. With strong collaborative abilities, he has coordinated interdisciplinary projects involving engineers, ecologists, and government agencies. His grant writing skills have helped secure major national and provincial funding. Dr. Fan’s mentorship abilities further amplify his research capacity, as he actively involves students in experimentation, fieldwork, and competitions. His wide-ranging skill set allows him to produce high-impact research with direct applications in dam safety, environmental conservation, and water resource management.

Awards and Honors

Dr. Fan Xinjian has received multiple prestigious awards in recognition of his outstanding contributions to research and teaching in hydraulic engineering. His research has been honored with three first prizes and one second prize from the Gansu Water Conservancy Science and Technology Progress Awards, reflecting the practical impact and innovation of his work. In the educational domain, he has secured two second prizes in provincial and ministerial teaching achievement awards, in addition to a third prize in the National University Teachers’ Teaching Innovation Competition. His recognition extends to intellectual property as well, with three national invention patents, five utility model patents, and one software copyright, showcasing his inventive and solutions-oriented research approach. Beyond formal awards, Dr. Fan has earned distinctions such as the Teaching Excellence Award, Graduation Design Outstanding Instructor Award, Teaching Quality Excellence Award, and the Three Education Awards. He has also led student teams to win more than 20 national and provincial science and technology innovation competitions, highlighting his excellence in student mentorship. These accolades not only affirm his research excellence but also his holistic contributions to education, innovation, and professional development in hydraulic engineering.

Conclusion

Dr. Fan Xinjian exemplifies the profile of a high-impact researcher and educator whose work bridges theoretical research and real-world application. His expertise in hydraulic and ecological engineering has led to significant advancements in the understanding and management of complex water systems, particularly in flood control and sediment transport. With more than 50 national and provincial research projects under his leadership or participation, he has developed practical engineering solutions that have been applied to iconic structures such as the Jinping I high arch dam. His recognition through numerous awards and patents highlights his influence and innovation. Furthermore, his dedication to student mentorship and educational excellence reflects his commitment to shaping the next generation of engineers. Through his administrative roles and academic leadership, he contributes actively to national capacity-building in hydraulic engineering. His profile presents a rare integration of research, teaching, and leadership, making him a compelling candidate for the Best Researcher Award. Dr. Fan’s continued contributions are expected to further advance the development of sustainable and intelligent water infrastructure in China and beyond.

Mamiko Numata | Environmental Science | Best Researcher Award

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Dr. Mamiko Numata | Environmental Science | Best Researcher Award

Researcher from Land Institute of Japan, Japan

Dr. Mamiko Numata is a distinguished researcher at the Land Institute of Japan and the School of Environment and Society at the Institute of Science Tokyo. Her academic and professional journey is rooted in the interdisciplinary domains of environmental studies, urban planning, and landscape design. With a comprehensive background in both environmental sciences and education, Dr. Numata has built an impactful career focusing on architectural and city planning, as well as social infrastructure. Her research addresses complex environmental and urban development challenges, emphasizing sustainable landscapes and policy frameworks. Over the years, she has contributed to numerous government and academic committees, actively shaping urban policy and design strategies in Tokyo and beyond. Her experience ranges from academic institutions to applied research institutes, bridging theoretical knowledge with practical implementation. Dr. Numata’s interest in comparative urban studies, particularly with Germany, further strengthens her global perspective. Her dedication to advancing sustainable cities and communities is evident through her longstanding involvement in planning councils and editorial boards. Known for her thoughtful integration of environment, design, and policy, Dr. Numata continues to play a significant role in Japan’s urban development landscape. Her profile reflects a unique combination of scholarly depth and public service, making her a respected figure in her field.

Professional Profile

Education

Dr. Mamiko Numata’s educational background is rooted in the environmental and social sciences, forming a strong foundation for her career in urban planning and environmental policy. She earned her doctorate in Environmental Studies in March 2012 from the University of Tsukuba, a leading institution known for its interdisciplinary approach to environmental issues. This doctoral program equipped her with advanced research skills in environmental systems, sustainability, and landscape architecture, offering her a multifaceted understanding of the interactions between human activities and natural ecosystems. Prior to her PhD, Dr. Numata completed a graduate program at the Tokyo Gakugei University, where she studied from April 2003 to March 2006. This earlier academic training likely emphasized educational theory and social systems, adding to her ability to address policy-related and human-centric aspects of urban planning. Together, these two degrees have enabled her to approach complex urban development problems from both scientific and societal perspectives. Her educational path demonstrates a commitment to continuous learning and an interdisciplinary framework that bridges the environment, policy, and design. The balance of technical and theoretical knowledge gained from these institutions has played a crucial role in shaping her research direction and long-term engagement in academic and policy-making circles.

Professional Experience

Dr. Mamiko Numata has over 15 years of professional experience across academic, governmental, and research institutions, reflecting her sustained commitment to environmental and urban planning. Since October 2020, she has served as a researcher at the Land Institute of Japan while also working within the School of Environment and Society at the Institute of Science Tokyo. These dual roles allow her to engage in both applied research and academic instruction, contributing to policy discourse and scientific inquiry. Previously, from 2013 to 2020, Dr. Numata worked at Tokyo Institute of Technology, where she was involved in high-level urban and environmental research, mentoring students, and publishing scholarly work. Her earliest significant position was at the Urban Environmental Planning Institute between 2007 and 2012, where she focused on real-world applications of urban planning and sustainable design principles. This combination of practical and academic experiences has provided her with a broad understanding of the field’s challenges and possibilities. Dr. Numata has also been actively involved in multiple municipal and national-level committees, advising on landscape design, urban redevelopment, and public infrastructure. Her professional journey shows a strategic blend of fieldwork, research, and civic engagement, establishing her as a leading voice in Japan’s urban environmental landscape.

Research Interests

Dr. Mamiko Numata’s research interests reflect a well-rounded and interdisciplinary approach to contemporary urban and environmental challenges. Her primary areas of focus include urban planning, environmental policy, landscape architecture, and comparative urban studies, with a particular interest in Germany. This cross-national perspective enables her to draw insights from global best practices and adapt them to Japan’s urban development contexts. Within urban planning, she explores how infrastructure, zoning, and city design can contribute to more sustainable and resilient communities. Her work in environmental policy investigates regulatory frameworks and governance models that influence city-level decision-making and ecological preservation. A major component of her research also involves landscape planning, where she examines the intersection of aesthetics, public space functionality, and environmental sustainability. Dr. Numata’s interest in Germany suggests a comparative analytical framework that looks at how European urban models can inform Japanese planning efforts. Her research is situated at the crossroads of civil engineering, architecture, and policy studies, emphasizing practical outcomes through well-informed, data-driven planning. This broad but interconnected research agenda allows her to respond to diverse urban issues ranging from land use and transportation to public engagement and design ethics, making her a valuable contributor to both academic and policy-making communities.

Research Skills

Dr. Mamiko Numata possesses a diverse set of research skills that span both qualitative and quantitative methodologies, enabling her to tackle complex questions in urban planning and environmental policy. Her expertise includes spatial analysis, environmental impact assessment, urban design evaluation, and policy analysis. Through her training and professional experience, she has developed strong competencies in systems thinking and interdisciplinary research design, which are essential for addressing multifaceted urban and ecological challenges. Dr. Numata is skilled in analyzing built environments and developing evidence-based recommendations for sustainable urban growth. She is also proficient in conducting fieldwork, stakeholder interviews, and comparative urban studies, particularly involving cross-national analysis between Japan and Germany. Furthermore, she has demonstrated her ability to synthesize academic literature, civic needs, and policy objectives to produce practical planning guidelines. Her committee work reflects her applied policy research skills, often informing local and national urban development projects. Dr. Numata also engages in academic publishing and editorial review, suggesting a strong command of scholarly communication and peer evaluation. Altogether, her research skills reflect a balance of analytical rigor, real-world application, and collaborative engagement, making her highly effective in contributing to both academic scholarship and public policy planning.

Awards and Honors

While specific awards and honors have not been explicitly listed in her publicly available profile, Dr. Mamiko Numata’s extensive committee involvement and institutional affiliations suggest a high level of recognition and trust within the academic and professional community. Her appointment to prestigious councils and editorial boards—such as the Journal of the Architectural Institute of Japan Editorial Committee and the Tokyo Minato Ward Urban Development Review Board—reflects the esteem in which she is held. Serving on over ten planning and design-related committees from 2014 through 2025, she has been consistently chosen to guide and review urban development, landscape policy, and academic publications. These roles are typically offered to individuals with a proven track record of excellence and leadership in their field. Such sustained engagement indicates peer recognition equivalent to formal honors, especially in Japan’s consensus-driven professional culture. Although direct awards are not documented, her contributions to public policy, academic research, and professional organizations highlight a career marked by distinction and impact. Future nominations for formal academic or governmental honors may be warranted based on her continued service and research achievements. Her body of work and influence already align with the expectations for award-worthy recognition within urban environmental planning.

Conclusion

Dr. Mamiko Numata stands out as a researcher who effectively bridges academic theory, urban policy, and environmental planning. Her educational background, professional trajectory, and deep involvement in committee work underscore a holistic approach to solving real-world urban challenges. With a focus on sustainable landscape design, urban planning, and comparative international frameworks, she brings a thoughtful and informed perspective to the field. Her strengths lie in interdisciplinary integration, public engagement, and institutional leadership, making her a key contributor to Japan’s environmental and infrastructural development discourse. While her profile could benefit from greater visibility in international collaborations and more detailed documentation of scholarly publications or formal awards, her overall contributions are significant and influential. Dr. Numata’s work continues to shape urban policy and design in both academic and municipal contexts. She embodies the qualities of a researcher deeply committed to public service, knowledge advancement, and sustainable urban futures. With her combined academic expertise and policy-oriented practice, she is well-positioned for recognition, such as the Best Researcher Award. Her profile presents a compelling case for honoring her dedication and impact in environmental and urban research.

Publications Top Notes

  1. Title: A Study on the Coexistence of Monument Protection and Energy in Southern Germany’s the Old Town—Focusing on Installation Requirements for Rooftop PV
    Author: Mamiko Numata
    Year: 2025

  2. Title: Study on the coexistence of monument protection and energy in old towns in southern GermanyAuthor
    : Mamiko Numata
    Year: 2024

  3. Title: A Study on Policy Trends Towards the Spread of Photovoltaic in Germany
    Author: Mamiko Numata
    Year: 2023

  4. Title: A Study on the Current State and Problems of Outdoor Advertisement Administration and Landscape Administration
    Authors: Mamiko Numata, Keiichi Shirakawa, Syoji Sasaki, Yasuki Tsuchiya, Natsuo Ito
    Year :

  5. Title: A Study on the Conservation Policy of Historic Buildings Focusing on the Situations of Ownership Transfer
    Authors: On Takasaki, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2022

  6. Title: A Study on the Difference Between the Green Coverage and the Green Evaluation Captured from the Impressive Landscape
    Author: Mamiko Numata
    Year: 2022

  7. Title: A Study on the Consistency of the Plan of the Area Around the Wards Boundary to Improve the Wooden Densely-Built Urban Area
    Authors: Sakiko Hamada, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2021

  8. Title: A Study on the Making of Flood Risk Reduction Measures of Cities Damaged by Floods by
    Hayato Ihara, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year :

  9. Title: Study of the Division of Functions Among Urban Centers and Their Changes in Cities with Two Urban Centers
    Authors: Yasuki Tsuchiya, Norihiro Nakai, Mamiko Numata, Kei Sakamura
    Year: 2021

  10. Title: A Study of the Effects of Buildings on the Surroundings Environment of Flagpole-Shaped Sites
    Authors: Mamiko Numata, Norihiro Naka

  11. Title: A Study on the Land Use Changes After Large Factory Closure
    Authors: Yasuki Tsuchiya, Norihiro Nakai, Mamiko Numata
    Year: 2019

 

Lixia Zhao | Environmental Science | Best Researcher Award

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Prof. Dr. Lixia Zhao | Environmental Science | Best Researcher Award

State Key Laboratory of Environmental Chemistry and Eco-toxicology at RCEES, China

Dr. Lixia Zhao is a Professor at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). She specializes in developing chemiluminescence-based analytical methods and technologies for detecting trace environmental pollutants and studying their degradation processes. With a strong academic and research background, Dr. Zhao has made significant contributions to environmental chemistry through her extensive publications, patents, and research projects. She has published 120 original research papers in high-impact journals such as Angewandte Chemie International Edition and Environmental Science & Technology, with a total of 5,213 citations. Dr. Zhao has successfully led multiple research projects funded by the National Natural Science Foundation of China and CAS, demonstrating her leadership in environmental analytical chemistry. Her innovative work has resulted in eight patent applications, of which six have been authorized. Through her research, Dr. Zhao aims to advance the detection, monitoring, and degradation analysis of environmental pollutants, contributing to improved environmental protection strategies. Her dedication to scientific innovation and her contributions to analytical environmental chemistry position her as a distinguished researcher in her field.

Professional Profile

Education

Dr. Lixia Zhao completed her Ph.D. at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). Her doctoral studies focused on the development of novel chemiluminescence-based analytical methods for environmental pollutant detection and monitoring. During her Ph.D., she gained extensive expertise in environmental chemistry, analytical instrumentation, and eco-toxicological studies. Her academic training equipped her with the skills to develop new analytical techniques for detecting trace pollutants and understanding their degradation mechanisms. Dr. Zhao’s education at a leading research institution provided her with a strong foundation in scientific research, experimental methodologies, and interdisciplinary collaboration. Her Ph.D. research laid the groundwork for her future contributions to environmental science, particularly in the application of chemiluminescence techniques for pollutant analysis. Through her rigorous academic training, she developed advanced problem-solving skills, critical thinking abilities, and a deep understanding of environmental analytical chemistry. Her educational background has played a crucial role in shaping her research career, enabling her to contribute innovative solutions to environmental monitoring and pollution control.

Professional Experience

Dr. Lixia Zhao is currently a Professor at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). Before attaining this position, she worked as a professor at the State Key Laboratory of Environmental Chemistry and Eco-Toxicology, RCEES. Throughout her academic career, she has been actively involved in research, teaching, and mentoring young scientists. Her professional experience spans several years of leading research projects focused on environmental analytical chemistry, particularly in developing advanced chemiluminescence-based detection methods for environmental pollutants. As a principal investigator, Dr. Zhao has successfully led multiple projects funded by prestigious organizations such as the National Natural Science Foundation of China and CAS. Her expertise in analytical method development and environmental monitoring has positioned her as a key contributor in the field. Additionally, she has collaborated with various research institutions, industry partners, and government agencies to enhance the application of her findings in environmental protection and pollution control. Her role as a professor has also involved supervising graduate students and fostering an environment of scientific innovation and excellence in research.

Research Interests

Dr. Lixia Zhao’s research focuses on the development of chemiluminescence-based analytical methods, technologies, and equipment for the detection and monitoring of trace environmental pollutants. She is particularly interested in understanding the dynamic degradation processes of these pollutants and their environmental implications. Her work integrates environmental chemistry, analytical techniques, and eco-toxicology to create innovative solutions for pollution monitoring and control. She aims to improve the sensitivity, selectivity, and efficiency of pollutant detection methods, enabling more accurate and real-time environmental assessments. Dr. Zhao’s research also extends to studying the interaction between pollutants and natural ecosystems, contributing to better environmental risk assessments and management strategies. Her work has practical applications in water and air quality monitoring, industrial pollution control, and regulatory compliance. By advancing analytical methodologies, she seeks to bridge the gap between laboratory research and real-world environmental challenges. Her commitment to developing cutting-edge environmental monitoring techniques reflects her dedication to sustainability and environmental protection.

Research Skills

Dr. Lixia Zhao possesses extensive expertise in analytical chemistry, particularly in chemiluminescence-based detection methods for environmental pollutants. She is skilled in developing and optimizing novel analytical techniques for trace pollutant analysis. Her technical proficiency includes designing and fabricating analytical instruments, data analysis, and method validation. She has hands-on experience with various laboratory techniques such as spectrophotometry, chromatography, and electrochemical analysis. Dr. Zhao is also adept at conducting eco-toxicological assessments and degradation studies to evaluate pollutant behavior in different environmental conditions. Her research involves interdisciplinary collaboration, integrating chemistry, environmental science, and engineering to develop innovative solutions for pollution monitoring. Additionally, she has strong project management skills, successfully leading multiple research grants and supervising research teams. Her ability to translate fundamental research into practical applications has resulted in patented technologies and advancements in environmental monitoring equipment. With her deep understanding of analytical instrumentation and environmental chemistry, Dr. Zhao continues to make significant contributions to the field.

Awards and Honors

Dr. Lixia Zhao has received numerous accolades in recognition of her contributions to environmental analytical chemistry. She has been awarded research grants and fellowships from prestigious organizations such as the National Natural Science Foundation of China and the Chinese Academy of Sciences. Her outstanding research achievements have been acknowledged through multiple national and international awards. Dr. Zhao’s high-impact publications in leading scientific journals have earned her recognition among her peers, as reflected in her citation count exceeding 5,213. She has also been honored for her contributions to scientific innovation through her patents, which have been successfully authorized and applied in practical environmental monitoring. Her expertise and leadership in the field have led to invitations as a keynote speaker at international conferences and participation in expert panels for environmental policy and regulatory discussions. These honors highlight her dedication to advancing analytical environmental chemistry and her influence in shaping research and technological advancements in pollutant detection and degradation analysis.

Conclusion

Dr. Lixia Zhao is a distinguished researcher in environmental analytical chemistry, specializing in chemiluminescence-based pollutant detection and monitoring. Her extensive publication record, high citation impact, and successful patent applications demonstrate her scientific excellence and innovation. With strong research skills, technical expertise, and leadership in multiple funded projects, she has significantly contributed to pollution monitoring and environmental protection. While she has established herself as a leading expert, further expanding her international collaborations and leadership roles in scientific organizations could enhance her global research influence. Her work has the potential to drive future advancements in analytical chemistry and environmental sustainability, making her a highly deserving candidate for recognition in her field.

Publications Top Notes

  • Title: “Enhanced Chemiluminescence Induced by Natural Light-Driven MIL-100(Fe)/TiO₂ for Dopamine Detection”

    Authors: Chengzhuo Yu, Jin Xu, Li Xiong, Yarui Wang, Silong Wang, Fanglan Geng, Zesen Shang, Huasheng Wu, Lixia Zhao, Yawei Wang

    Journal: Analytical Chemistry

    Publication Date: March 11, 2025

    DOI: 10.1021/acs.analchem.4c07100

  • Title: “In Situ Imaging of Cellular Inflammatory Response to Antibiotic Exposure with a DNAzyme Nanorobot”

    Authors: Aijiao Yuan, Huifang Hao, Rui Sha, Hang Xiao, Fan Yang, Bo Pang, Jinhua Li, Minghua Jin, Wenjing Xie, Lixia Zhao, et al.

    Journal: Environmental Science & Technology

    Publication Date: November 19, 2024

    DOI: 10.1021/acs.est.4c06956

  • Title: “Occurrence and Ecological Risk Assessment of Highly Toxic Halogenated Byproducts during Chlorination Decolorization of Textile Printing and Dyeing Wastewater”

    Authors: Yukun Zhou, Tianyu Chen, Xiang Zhang, Ruiqing Chen, Nali Zhu, Lingxiangyu Li, Lixia Zhao, Zhigang Li, Yawei Wang, Guibin Jiang

    Journal: Environmental Science & Technology

    Publication Date: October 8, 2024

    DOI: 10.1021/acs.est.4c07888

    Source: Crossref

  • Title: “Generation of Reactive Oxygen Species on MIL‐100(Fe)/TiO₂ Driven by Mild Natural Light”

    Authors: Chengzhuo Yu, Jin Xu, Yarui Wang, Silong Wang, Li Xiong, Fanglan Geng, Zesen Shang, Huasheng Wu, Jitao Lv, Lixia Zhao, et al.

    Journal: ChemCatChem

    Publication Date: July 24, 2024

    DOI: 10.1002/cctc.202400847

Hao Gu | Ecological Engineering | Best Researcher Award

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Dr. Hao Gu | Ecological Engineering | Best Researcher Award

Hohai University, China

Hao Gu is a dedicated researcher and Ph.D. candidate in Hydraulic Structure Engineering at Hohai University, Nanjing, China. With a robust academic foundation and research expertise, he has actively contributed to advancing water conservancy engineering. Hao’s research focuses on the interaction between plant roots and soil, aiming to develop innovative strategies for embankment stabilization and ecological restoration. He has been involved in prestigious projects funded by the National Natural Science Foundation of China and Huaian Water Conservancy Project Construction Management Center, showcasing his ability to address real-world challenges. His publications in reputed journals highlight his commitment to impactful research. With strong technical skills in programming and advanced engineering software, Hao is well-equipped to tackle complex problems in his field. He has also been recognized with multiple scholarships and awards for academic excellence, underscoring his potential as an emerging leader in hydraulic engineering research.

Professional Profile

Education

Hao Gu’s educational journey is rooted in Hohai University, where he has consistently demonstrated academic excellence. He is currently pursuing a Ph.D. in Hydraulic Structure Engineering under the supervision of Yuan Wang. Prior to this, he completed his M.Eng in the same field in 2021, guided by Xiao Sun, where he further honed his research skills. Hao earned his B.Eng in Water Conservancy and Hydropower Engineering in 2020, laying a strong foundation in the principles of water management and hydraulic systems. His academic progression at one of China’s top institutions highlights his dedication and capability in the field. Throughout his education, Hao has not only excelled in coursework but has also actively participated in innovative research projects, reflecting his passion for solving real-world engineering challenges.

Professional Experience

Hao Gu’s professional experience is anchored in his participation in impactful research projects. As part of a National Natural Science Foundation of China-funded initiative, he contributed to identifying and predicting dike piping hazards and devising preventive measures. His role involved designing field experiments, installing monitoring equipment, and analyzing the influence of plant roots on embankment seepage fields. Additionally, Hao worked on a project focused on impervious reinforcement and ecological slope protection of the Hongze Lake embankment, supported by the Huaian Water Conservancy Project Construction Management Center. His responsibilities included conducting experimental and numerical studies on root-soil hydro-mechanical interactions and investigating water flow mechanisms in root-soil composites. These experiences have equipped Hao with practical expertise in addressing critical issues in hydraulic structure engineering.

Research Interests

Hao Gu’s research interests lie at the intersection of engineering and environmental sustainability. In the short term, he focuses on understanding water flow through root networks and the dynamic interactions between plants and soil. This work has significant implications for improving embankment stability and enhancing ecological restoration strategies. His long-term research vision involves developing vegetation selection strategies that integrate root hydraulic architecture and mechanical reinforcement. By exploring the interplay between biological and physical factors, Hao aims to contribute to the sustainable management of water conservancy structures and the protection of vulnerable ecosystems. His innovative approach reflects a commitment to bridging the gap between engineering practices and environmental stewardship.

Research Skills

Hao Gu possesses a versatile skill set that underpins his research excellence. He is proficient in programming languages such as Matlab, Python, and VB, enabling him to perform advanced data analysis and modeling. His expertise extends to using engineering software like Abaqus, Ansys, Comsol, Hypermesh, and Flac3D for numerical simulations and structural analysis. Hao is also skilled in designing and conducting field experiments, particularly in installing and utilizing monitoring equipment to gather critical data. His analytical skills are complemented by his ability to interpret complex interactions in plant-soil systems, supported by a strong foundation in hydraulics and mechanics. These competencies make him a valuable contributor to research in hydraulic engineering.

Awards and Honors

Hao Gu has been recognized with several prestigious awards and scholarships, reflecting his academic excellence and research potential. In 2020, he received the Excellent New Student Scholarship from Hohai University. He was subsequently awarded a scholarship for his Master’s and Ph.D. programs, further endorsing his academic achievements. In 2021, Hao earned a First-Grade Scholarship, demonstrating his consistent performance at the highest level. These accolades highlight his dedication to his studies and his capability to excel in a competitive academic environment. Hao’s awards not only validate his past achievements but also serve as a testament to his potential to make significant contributions to the field of hydraulic engineering.

Conclusion

Hao Gu is an emerging researcher with significant potential in the field of Hydraulic Structure Engineering. His involvement in high-impact projects, technical expertise, and publication record make him a strong candidate for the Best Researcher Award. However, further steps toward international collaboration, research diversification, and leadership roles would solidify his standing as a well-rounded researcher. Overall, he is a promising candidate, and recognizing his achievements could encourage his continued contributions to the field.

Publications Top Notes

  • Enhanced Soil Stabilisation and Growth of Lolium perenne Through Combined Seeding With Cynodon dactylon
    • Journal: Rhizosphere
    • Year: 2024 (December)
    • DOI: 10.1016/j.rhisph.2024.100977
    • Authors: Hao Gu, Yuan Wang, Sheng Liu, Haikuan Chen, Lu Jia, Zhongyuan Chen
  • Mixed Grass Species Enhances Root Production and Plant–Soil Reinforcement
    • Journal: Land Degradation & Development
    • Year: 2024 (November 16)
    • DOI: 10.1002/ldr.5390
    • Authors: Yuan Wang, Hao Gu, Sheng Liu

 

 

Taiwo Ale | Environmental Science | Best Researcher Award

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Ms. Taiwo Ale | Environmental Science | Best Researcher Award

Assistant Lecturer at Adekunle Ajasin University, Nigeria

Ale Taiwo Ayomide is an Assistant Lecturer and a skilled architect with a robust background in both academic and professional domains. He holds multiple degrees in architecture and has developed a well-rounded expertise that spans teaching, research, and practical experience in architectural design and urban planning. His research portfolio includes publications in reputable journals and focuses on sustainable architecture, the influence of landscape elements on comfort, and the social implications of architectural spaces. As a reviewer for academic journals, Ayomide contributes to advancing scholarly work, while his memberships in architectural bodies showcase his commitment to maintaining high standards in his profession. His dedication to architectural education, community service, and professional development highlights a career grounded in both practical application and academic inquiry. Ayomide’s well-rounded approach and passion for innovation in architecture position him as a promising researcher in the field.

Education

Ayomide’s educational journey began at Kings and Queens Nursery/Primary School and Model Secondary School in Akure, Ondo State. He then pursued higher education in architecture, earning his Bachelor of Science degree from Joseph Ayo Babalola University, where he graduated with a Second Class Upper in 2015. Ayomide continued his studies with a Master of Technology in Architecture from the Federal University of Technology, Akure (FUTA) in 2018, and he is currently completing a Master of Philosophy at the same institution, expected in 2024. His comprehensive education in architecture has provided a solid foundation for his research and professional endeavors, equipping him with theoretical knowledge and practical skills necessary for innovation in the field.

Professional Experience

Ayomide has a rich background in both professional and academic architecture. He started with practical experience through internships, including placements with the Ministry of Land and Housing in Akure and Tos-Kay Nigeria Limited. He gained experience as a Graduate Architect at the Egbada Local Government in Ibadan and later at Tos-Kay Nigeria Limited, where he honed his skills in architectural design and project management. Academically, he transitioned to teaching as a faculty member at Joseph Ayo Babalola University before joining Adekunle Ajasin University, where he currently lectures. His diverse experience across these roles reflects his deep engagement with architecture, both in practice and education, making him a versatile professional and educator in the field.

Research Interest

Ayomide’s research interests lie at the intersection of architecture, sustainability, and social impact. He is particularly focused on how architectural design and landscape elements can enhance thermal comfort in buildings, a topic that aligns with growing concerns over energy efficiency and sustainable development. Additionally, he explores vernacular architecture in Nigeria, aiming to document and promote indigenous building styles that are environmentally adaptive. His work also examines the role of rural community spaces, such as markets and parks, in fostering social interaction, reflecting his commitment to designing environments that support cultural and social needs. Through his research, Ayomide aims to address contemporary architectural challenges, contributing to the development of spaces that are not only functional but also socially and environmentally responsible.

Research Skills

Ayomide possesses a range of research skills that support his work in architecture and urban studies. He has advanced proficiency in quantitative analysis using SPSS, a critical skill for data-driven architectural research. His technical expertise extends to software like AutoCAD, Revit, and 3D Max, which allow him to create detailed architectural models and conduct spatial analyses. He also brings strong analytical abilities, enabling him to evaluate architectural data and draw meaningful insights, especially in areas related to thermal comfort and sustainable design. Additionally, Ayomide is skilled in academic writing and presentation, as evidenced by his multiple publications in peer-reviewed journals and his role as a reviewer for scholarly publications. His combination of analytical, technical, and communication skills makes him a proficient researcher in the field of architecture.

Awards and Honors

Ayomide has received several awards and recognitions that highlight his academic and professional achievements. Early in his education, he earned accolades in the National Mathematics and Sciences Olympiads, demonstrating his analytical aptitude. More recently, he was awarded a National Research Fund (NRF) grant in 2021, a competitive award that underscores the significance and potential impact of his research in architecture. He is also a certified member of the British International Safety Organization and holds an Expert Rating Global Certification in Human Resource Management, showcasing his commitment to continual professional development. These honors reflect Ayomide’s dedication to excellence and innovation in architecture, as well as his commitment to expanding his skills and contributing to advancements in his field.

Conclusion

Ayomide demonstrates a strong foundation and versatility in architecture, with notable achievements in academic research, teaching, and professional practice. His strengths in research and publication make him a solid candidate for the Best Researcher Award. By continuing to focus on a specialized area and expanding his research’s global impact, he has the potential to achieve even greater recognition in his field. Overall, he exhibits the qualities of a promising researcher with growing influence in architectural studies and urban planning.

Publications Top Notes

  1. Enhancement of workplace comfort through the use of soft landscape”
    • Authors: Ale, T.A., Ayeni, D.A., Adedayo, O.F.
    • Journal: City, Territory and Architecture
    • Year: 2024
    • Volume: 11, Issue 1, Article 11
  2. “Statistical analysis of subsoil geotechnical properties derived from Ogbagi Akoko and other parts of Southwestern Nigeria”
    • Authors: Ale, T.O., Ale, T.A., Wilson, J.A., Ayeniyo, O.O.
    • Journal: Bulletin of Engineering Geology and the Environment
    • Year: 2023
    • Volume: 82, Issue 6, Page 225
  3. “Investigation of shallow subsurface soil for engineering construction: A case study of Etioro Akoko, Southwestern Nigeria”
    • Authors: Ogunribido, T.H., Ale, T.O., Uko, E.K., Ale, T.A.
    • Journal: Cogent Engineering
    • Year: 2023
    • Volume: 10, Issue 1, Article 2199510
  4. “Geotechnical investigation and statistical relationship of subsoil properties derived from two parent rock types in Southwestern Nigeria”
    • Authors: Ale, T.O., Ogunribido, T.H., Kolawole, M.A., Ale, T.A.
    • Journal: Cogent Engineering
    • Year: 2022
    • Volume: 9, Issue 1, Article 2132654

 

Oksana Cherednichenko | Environmental Science | Best Researcher Award

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Dr. Oksana Cherednichenko | Environmental Science | Best Researcher Award

Head of Genetic Monitoring Laboratory at Institute of genetics and physiology, Kazakhstan.

Oksana Cherednichenko is a distinguished geneticist specializing in human and animal cytogenetics, ecological genetics, radiobiology, and radioecology. She currently serves as the Head of the Genetic Monitoring Laboratory at the Institute of Genetics and Physiology in Almaty, Kazakhstan. With over 29 years of scientific experience, she has contributed significantly to understanding the impacts of radiation on human and animal genetics, focusing on adaptation mechanisms and biodosimetry. Her research explores various radiation effects, including ionizing and non-ionizing radiation, and their implications on human health. Cherednichenko’s expertise extends to managing national and international research projects, where she has developed models and methods for assessing radiation exposure and individual radiosensitivity. Her work is well-recognized, with over 140 publications, participation in several prestigious research grants, and collaborations that have advanced the field of genetic monitoring and environmental safety.

Professional Profile

Education

Oksana Cherednichenko completed her education at Al-Farabi Kazakh State University, earning her degree in Biology in 1992. She further pursued postgraduate studies at the Institute of Microbiology and Virology from 1992 to 1995. During this time, she conducted groundbreaking research on the mutagenic potential of the influenza virus, culminating in her thesis defense in 1998. This academic foundation equipped her with a robust understanding of genetic mechanisms, cytogenetic methodologies, and ecological impacts on biological systems. Cherednichenko’s education laid the groundwork for her successful career, allowing her to contribute to various research projects and initiatives focused on genetic monitoring and environmental health in Kazakhstan.

Professional Experience

Oksana Cherednichenko has an extensive professional background, spanning nearly three decades in the field of genetics. She has worked at the Institute of Genetics and Physiology (formerly the Institute of General Genetics and Cytology) since 1995, where she currently serves as the Head of the Genetic Monitoring Laboratory. Throughout her career, Cherednichenko has led numerous national and international research projects, focusing on the cytogenetic effects of ionizing radiation and environmental pollutants. Her role involves managing grants, coordinating research efforts, and supervising master’s theses and diploma works in biology. She has contributed significantly to the scientific community through her involvement in various research collaborations and her commitment to advancing knowledge in genetics and environmental science.

Research Interests

Cherednichenko’s research interests lie primarily in the fields of cytogenetics, ecological genetics, and radiobiology. She focuses on studying the genetic effects of environmental factors, particularly ionizing radiation, on human and animal populations. Her work includes investigating the mechanisms of radioadaptive responses, assessing individual radiosensitivity, and evaluating the impacts of low doses of radiation and chemical substances on genetic stability. Additionally, she is involved in cytogenetic monitoring of wildlife and humans using advanced cytomic analyses. Her research contributes valuable insights into the consequences of environmental exposure, supporting public health initiatives and conservation efforts in Kazakhstan and beyond.

Research Skills

Oksana Cherednichenko possesses a diverse range of research skills that enhance her contributions to the field of genetics. Her expertise includes advanced cytogenetic techniques, biodosimetry, and environmental monitoring, allowing her to assess the genetic consequences of radiation and chemical exposure. She is skilled in designing and conducting in vivo and in vitro studies, as well as implementing various cytomic analyses to evaluate chromosomal and nuclear abnormalities. Cherednichenko’s ability to manage and lead research projects, along with her experience in grant writing and collaboration, positions her as a key figure in genetic research. Her proficiency in data analysis and interpretation further supports her commitment to advancing scientific understanding in her areas of focus.

Awards and Honors

Throughout her distinguished career, Oksana Cherednichenko has received several accolades recognizing her contributions to science and education. She was honored with the state scientific scholarship from the Ministry of Education and Science of the Republic of Kazakhstan for talented young scientists from 1997 to 1999. Additionally, she has been awarded the “Algys” diploma and two “Kurmet” diplomas from the Ministry of Education and Science for her significant contributions to the development of education and science in Kazakhstan. Cherednichenko has authored over 140 scientific publications, demonstrating her commitment to advancing knowledge in her field and inspiring future generations of scientists through her mentorship and research initiatives.

Conclusion:

Oksana Cherednichenko is a highly suitable candidate for the Best Researcher Award, given her extensive experience, diverse research interests, and leadership in the field of genetic monitoring. Her work has made significant contributions to understanding the effects of radiation and environmental stressors on human and animal health. While her citation impact could be improved, her dedication to advancing science in Kazakhstan and her international collaborations make her a strong contender for the award.

Publication Top Noted

  1. Eco-toxicological effects assessment: comparative characteristics of environmental conditions and status of vertebrate indicator species in the “Dnepr” launch vehicle accident zone
    Authors: Cherednichenko, O., Chirikova, M., Magda, I., Pilyugina, A., Azizbekova, D.
    Year: 2024
  2. Trends in the cytogenetic and immunologic status of healthy persons; Kazakhstan, 2007–2022
    Authors: Cherednichenko, O., Demchenko, G., Kapysheva, U., Kozhaniyazova, U., Zhaksymov, B.
    Year: 2024
  3. Cytome analysis (micronuclei and nuclear anomalies) in bioindication of environmental pollution in animals with nuclear erythrocytes
    Authors: Cherednichenko, O., Magda, I., Nuraliyev, S., Pilyugina, A., Azizbekova, D.
    Year: 2024
  4. Persons chronically exposed to low doses of ionizing radiation: A cytogenetic dosimetry study
    Authors: Cherednichenko, O., Pilyugina, A., Nuraliev, S., Azizbekova, D.
    Year: 2024
  5. Сytogenetical bioindication of pesticidal contamination
    Authors: Cherednichenko, O., Pilyugina, A., Nuraliev, S.
    Year: 2022
  6. Chronic human exposure to ionizing radiation: Individual variability of chromosomal aberration frequencies and G0 radiosensitivities
    Authors: Cherednichenko, O., Pilyugina, A., Nuraliev, S.
    Year: 2022
  7. Studying the mutagenic activity of drinking water and soil samples selected from Kentau and adjacent territories
    Authors: Cherednichenko, O., Nuraliev, S., Berkinbaev, G., Pilugina, A., Baigushikova, G.
    Year: 2021
  8. Ecological risk assessment and long-term environmental pollution caused by obsolete undisposed organochlorine pesticides
    Authors: Mit, N., Cherednichenko, O., Mussayeva, A., Bekmanov, B., Djansugurova, L.
    Year: 2021
  9. Assessment of the genotoxicity of water and soil in the places of storage of reserves of old pesticides by Allium-test
    Authors: Cherednichenko, O., Nuraliev, S., Bekmanov, B., Dzhansugurova, L., Baigushikova, G.
    Year: 2020
  10. The effects of DNA repair polymorphisms on chromosome aberrations in the population of Kazakhstan
    Authors: Djansugurova, L., Altynova, N., Cherednichenko, O., Khussainova, E., Dubrova, Y.E.
    Year: 2020

 

 

 

Yunfei Han | Greenhouse Gas | Best Researcher Award

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Dr. Yunfei Han | Greenhouse Gas | Best Researcher Award

Student at University of Science and Technology of China, China

Yunfei Han is a dedicated researcher specializing in satellite-based greenhouse gas monitoring and detection technologies. At 30 years old, Yunfei has already contributed significantly to environmental science through his work with advanced instrumentation on the GaoFen-5 satellite series. A party member from Anhui, Yunfei possesses strong analytical skills and a hands-on approach to research. He is detail-oriented, responsible, and highly motivated, with a deep passion for problem-solving and innovation. With a background in both physics and automation, he has excelled in high-level collaborative research projects, earning prestigious awards and publishing in renowned journals. Yunfei is constantly pushing himself to make daily progress, driven by perseverance and a thirst for learning. His research has the potential to make substantial contributions to environmental monitoring and sustainability.

Professional Profile

Education

Yunfei Han has pursued a rigorous academic path, beginning with a bachelor’s degree in Automation from Anhui Normal University, completed in July 2016. Following this, he earned a second bachelor’s degree in Detection Technology and Automation Equipment from the University of Science and Technology of China in June 2019. Yunfei then continued his studies at the same university, where he has been working toward a Master’s degree in Physics since June 2019. His education provided him with a strong theoretical background, particularly in the areas of detection technologies and instrumentation, which has equipped him for his advanced research into greenhouse gas monitoring. Yunfei’s commitment to his education and continual learning has allowed him to develop the scientific foundation necessary for tackling complex research challenges.

Professional Experience

Throughout his career, Yunfei Han has demonstrated a deep commitment to research and innovation, particularly in the field of environmental monitoring. His professional experience centers around his work on the GaoFen-5B satellite, where he has played a key role in the development of advanced greenhouse gas monitoring instruments. Yunfei has worked extensively on the on-orbit spectral calibration and instrumental line shape functions, showcasing his technical proficiency in cutting-edge satellite technologies. His research also involves extensive data processing and retrieval technology, contributing to significant national projects, including the National High-Resolution Earth Observation Program. In addition to his research, Yunfei has been involved in various collaborative projects, where he worked with multidisciplinary teams to advance satellite-based environmental technologies.

Research Interests

Yunfei Han’s research interests focus on the development of advanced detection technologies for satellite-based environmental monitoring. His primary area of expertise lies in the monitoring of greenhouse gases through hyperspectral and remote sensing technologies. Yunfei is particularly interested in refining on-orbit calibration methods to improve the precision of satellite instruments, which are critical for accurate environmental assessments. His research also explores data retrieval technologies for satellites, with a specific focus on enhancing the performance of the GaoFen-5 satellite series. By leveraging his background in automation and physics, Yunfei aims to develop cutting-edge instruments that contribute to global efforts in climate change mitigation. His passion for this field is driven by a strong sense of social responsibility and the desire to tackle environmental challenges through innovation.

Research Skills

Yunfei Han is skilled in a variety of technical and research methodologies that are essential for advanced environmental monitoring. He has extensive expertise in the design and calibration of satellite-based instruments, particularly those used for detecting greenhouse gases. His work on the GaoFen-5B satellite has honed his skills in on-orbit spectral calibration and the development of instrumental line shape functions, both crucial for ensuring the accuracy of satellite data. Yunfei is also proficient in hyperspectral data processing and retrieval technologies, which are key components in satellite-based environmental monitoring systems. Additionally, he is adept at using office automation software and has strong analytical abilities that allow him to solve complex technical problems efficiently. His hands-on approach and willingness to take on challenges make him a versatile and innovative researcher.

Awards & Honors

Yunfei Han’s contributions to the field of environmental monitoring have been recognized through various awards and honors. In 2023, he received the Provincial and Ministerial Second Prize for his work on the National High-Resolution Earth Observation Program, where his efforts contributed to the development of hyperspectral greenhouse gas payload data processing and retrieval technology. His research on the GaoFen-5 satellite has also been published in prestigious journals like Applied Optics and Remote Sensing, further solidifying his reputation as a promising researcher in his field. Yunfei’s work on high-profile national projects demonstrates his ability to contribute to significant advancements in satellite technologies, and his dedication to pushing the boundaries of environmental research continues to earn him recognition.

Conclusion

Yunfei Han is a highly suitable candidate for the Best Researcher Award, especially within the field of environmental monitoring and satellite instrumentation. His strong academic background, impactful publications, and recognition through prestigious awards make him a compelling candidate. However, to further strengthen his case, he could benefit from showcasing more leadership in research projects and expanding the breadth of his research. His dedication to progress, problem-solving, and meeting challenges will serve him well in future research endeavors.

Publication Top Note

  • Research on Calculation Method of On-Orbit Instrumental Line Shape Function for the Greenhouse Gases Monitoring Instrument on the GaoFen-5B Satellite
    • Authors: Han, Y., Shi, H., Luo, H., Xiong, W., Hou, C.
    • Year: 2024
    • Journal: Remote Sensing, 16(12), 2171
  • A Novel Framework for Mixed Noise Removal From Greenhouse Gases Monitoring Instrument (GMI) Interferogram Images on GF5-02 Satellite
    • Authors: Zhu, F., Shi, H., Xiong, W., Sun, X., Wu, S.
    • Year: 2024
    • Journal: IEEE Transactions on Geoscience and Remote Sensing, 62, 5524515
  • Quantitative Analysis of Mixtures Based on Portable Spatial Heterodyne Raman Spectrometer
    • Authors: Bai, Y., Luo, H., Li, Z., Han, Y., Xiong, W.
    • Year: 2024
    • Journal: Analytical Letters, 57(13), 2018–2033
  • Greenhouse Gas Monitoring Instrument on the GF-5 Satellite-II: On-Orbit Spectral Calibration
    • Authors: Han, Y., Shi, H., Li, Z., Xiong, W., Hu, Z.
    • Year: 2023
    • Journal: Applied Optics, 62(22), 5839–5849
  • Greenhouse Gases Monitoring Instrument on a GF-5 Satellite-II: Correction of Spatial and Frequency-Dependent Phase Distortion
    • Authors: Wang, Q., Luo, H., Li, Z., Han, Y., Xiong, W.
    • Year: 2023
    • Journal: Optics Express, 31(2), 3028–3045
  • Correction of Invalid Data Based on Spatial Dimension Information of a Temporally and Spatially Modulated Spatial Heterodyne Interference Imaging Spectrometer
    • Authors: Ding, Y., Luo, H., Shi, H., Li, S., Xiong, W.
    • Year: 2021
    • Journal: Applied Optics, 60(22), 6614–6622
  • New Flat-Field Correction Method for Spatial Heterodyne Spectrometer
    • Authors: Ding, Y., Luo, H., Shi, H., Han, Y., Xiong, W.
    • Year: 2020
    • Journal

Ermias Debie | Environmental Science | Best Researcher Award

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Dr. Ermias Debie | Environmental Science | Best Researcher Award

Associate Professor at Bahir Dar University, Ethiopia

Dr. Ermias Debie is an accomplished researcher and academic in the field of Environment and Natural Resources Management, currently serving as an Associate Professor at Bahir Dar University, Ethiopia. He holds a Ph.D. from Addis Ababa University and a certificate in GIS and remote sensing applications for water resource management. His research focuses on vital areas such as livelihood resilience, climate change, sustainable land management, and ecological restoration, contributing significantly to the understanding of these issues in Ethiopia. Dr. Debie has published extensively in reputable journals, with recent works addressing biodiversity, land use changes, and ecosystem services. He is actively involved in national projects, including curriculum development and training programs for teachers, and has supervised over 50 graduate students. His commitment to community service is demonstrated through various capacity-building initiatives aimed at enhancing local practices in environmental management and biodiversity conservation.

Profile

Education

Dr. Ermias Debie holds a Ph.D. in Environment and Natural Resources Management from Addis Ababa University, Ethiopia. His academic journey is marked by a strong focus on environmental sustainability and resource management. He further enhanced his expertise by obtaining a certificate in GIS and remote sensing applications for water resources management from the esteemed Delft Institution in the Netherlands. This combination of advanced education has equipped him with the necessary skills and knowledge to address critical issues related to livelihood resilience, climate change, food insecurity, and sustainable land management. Dr. Debie’s educational background reflects a commitment to applying scientific principles to real-world challenges, particularly in the context of ecological restoration and the sustainable management of natural resources in Ethiopia and beyond. His interdisciplinary approach to education underscores his dedication to promoting sustainable practices in environmental science and natural resource management.

Professional Experience

Dr. Ermias Debie is an accomplished Associate Professor of Environment and Natural Resources Management at Bahir Dar University, Ethiopia, with a robust career in academia and research. He has held various leadership roles, including the Department Head of Geography and Environmental Studies from 2020 to 2022 and Course Chair in Environmental Geography from 2023 to 2024. Prior to his tenure at Bahir Dar University, Dr. Debie served as an Assistant Professor at Debre Markos University and Jigjiga University, where he was also the Department Head and Coordinator of the M.A. Program in Disaster Risk Management. His academic journey began as a lecturer, and he has been instrumental in supervising over 50 MA and MSc students, alongside one PhD candidate. Dr. Debie’s commitment to education extends beyond the classroom, as he has contributed to community service projects and national curriculum development, enhancing the educational landscape in Ethiopia.

Research Interest

Dr. Ermias Debie’s research interests lie at the intersection of environmental management and sustainable development. He focuses on livelihood resilience, examining how climate change and variability impact food security, particularly in the context of Ethiopia’s diverse ecosystems. His work emphasizes climate-smart innovations and sustainable land management practices aimed at mitigating land degradation and promoting ecological restoration. Dr. Debie is particularly interested in agrobiodiversity and its role in enhancing the resilience of smallholder farmers. He employs advanced methodologies, including GIS and remote sensing, to analyze the interactions between land use, ecosystem services, and agricultural practices. His recent publications reflect a commitment to understanding the socio-economic and environmental factors that influence sustainable land management and biodiversity conservation. By integrating local perspectives and scientific research, Dr. Debie aims to develop practical solutions to the challenges posed by climate change and resource degradation in vulnerable communities.

Research Skills

Dr. Ermias Debie possesses a diverse array of research skills that significantly contribute to his expertise in Environment and Natural Resources Management. His proficiency in Geographic Information Systems (GIS) and remote sensing applications enhances his ability to analyze spatial data for water resources management and environmental assessments. Dr. Debie’s extensive knowledge in climate-smart innovations, agrobiodiversity, and sustainable land management enables him to conduct impactful research on climate change adaptation and resilience strategies for rural communities. He is adept at employing various analytical techniques, including statistical analysis and modeling, to assess ecosystem services, land-use changes, and soil conservation practices. Dr. Debie also has a strong track record of publishing in peer-reviewed journals, demonstrating his ability to communicate research findings effectively. Moreover, his mentoring experience with over 50 MA and MSc students showcases his commitment to fostering the next generation of researchers in the field.

Award and Recognition

Dr. Ermias Debie has garnered significant recognition for his impactful contributions in the fields of environment and natural resources management. With a Ph.D. from Addis Ababa University, he has published extensively in reputable journals, highlighting critical issues such as climate change, sustainable land management, and food security in Ethiopia. His research has led to practical solutions for improving livelihood resilience and ecological restoration, demonstrating his commitment to advancing knowledge and sustainability. Dr. Debie’s leadership extends beyond research, as he has played a pivotal role in developing educational resources, including geography curricula and textbooks for Ethiopian students. His dedication to community service is evident through training programs aimed at enhancing the skills of geography teachers and local farmers. Furthermore, he has supervised over 50 graduate students, fostering the next generation of environmental scholars. Dr. Debie’s extensive achievements make him a deserving candidate for the Best Researcher Award, reflecting his dedication to excellence in research and education.

Conclusion

Dr. Ermias Debie exemplifies the qualities of a best researcher through his extensive academic background, impactful research contributions, and dedication to community engagement. His leadership in academia and commitment to mentoring future scholars position him as a significant asset in the field of environmental and natural resource management. With continued efforts to expand his collaborative networks and outreach strategies, Dr. Debie’s work can contribute even more significantly to addressing pressing environmental challenges, making him a deserving candidate for the Best Researcher Award.

Publication Top Notes
  1. A local perspective on the links between flora biodiversity and ecosystem services in the northwest highlands of Ethiopia
    • Authors: Debie, E.
    • Year: 2024
    • Journal: Journal of Environmental Management
    • Volume/Page: 370, 122656
  2. Analysis of the decision to convert croplands into E. Camaldulensis woodlot and its impact on income diversification in Mecha district, Northwest Ethiopia
    • Authors: Debie, E.
    • Year: 2024
    • Journal: Trees, Forests and People
    • Volume/Page: 17, 100636
  3. Endemic plant species and threats to their sustainability in Ethiopia: A systematic review
    • Authors: Abro, T.W., Desta, A.B., Debie, E., Alemu, D.M.
    • Year: 2024
    • Journal: Trees, Forests and People
    • Volume/Page: 17, 100634
  4. Effectiveness of sustainable land management initiatives in the highlands of Ethiopia
    • Authors: Debie, E.
    • Year: 2024
    • Journal: Regional Environmental Change
    • Volume/Page: 24(3), 106
  5. The impacts of land use/cover changes on values of ecosystem service in Tul watershed, Northwest Ethiopia
    • Authors: Debie, E., Awoke, Z.
    • Year: 2023
    • Journal: Ethiopian Renaissance Journal of Social Sciences and Humanities
    • Volume/Page: 10(2), pp. 1–16
  6. Perceived Determinants of Smallholder Households’ Resilience to Livelihood Insecurity in Goncha District, Northwest Highlands of Ethiopia
    • Authors: Debie, E., Ayele, A.W.
    • Year: 2023
    • Journal: SAGE Open
    • Volume/Page: 13(3)
  7. Characterizing groundwater quality for a safe supply of water using WQI and GIS in Bahir Dar city, northwest Ethiopia
    • Authors: Asmamaw, M., Debie, E.
    • Year: 2023
    • Journal: Water Practice and Technology
    • Volume/Page: 18(4), pp. 859–883
  8. Assessment of the effects of land use/cover changes on soil loss and sediment export in the Tul Watershed, Northwest Ethiopia using the RUSLE and InVEST models
    • Authors: Debie, E., Awoke, Z.
    • Year: 2023
    • Journal: International Journal of River Basin Management
  9. Changes in Ecosystem Service Values in Response to the Planting of Eucalyptus and Acacia Species in the Gilgel Abay Watershed, Northwest Ethiopia
    • Authors: Debie, E., Anteneh, M.
    • Year: 2022
    • Journal: Tropical Conservation Science
    • Volume/Page: 15
  10. The role of sustainable soil management practices in improving smallholder farmers’ livelihoods in the Gosho watershed, Northwest Ethiopia
    • Authors: Debie, E., Yayeh, T., Anteneh, M.
    • Year: 2022
    • Journal: Cogent Food and Agriculture
    • Volume/Page: 8(1), 2097608

 

 

MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

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Assoc Prof Dr. MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Assoc Prof Dr. MOHD YUSUF KHAN, King Fahd University of Petroleum and Minerals, Saudi Arabia

Assoc. Prof. Dr. Mohd Yusuf Khan is a distinguished academic at King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, where he specializes in clean energy technologies and sustainable practices. With extensive experience in research and development, Dr. Khan has significantly contributed to advancing hydrogen technologies and carbon management through his work at the University Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). His academic journey includes notable positions as a Research Scientist and a Post-doctoral Fellow, during which he has published numerous articles in reputable journals. Dr. Khan is committed to fostering innovation in the clean energy sector and is dedicated to educating the next generation of engineers and scientists.

Profile:

Academics:

Assoc. Prof. Dr. Mohd Yusuf Khan is currently a faculty member at King Fahd University of Petroleum and Minerals, Saudi Arabia. He holds a Ph.D. in Chemical Engineering with a specialization in Polymer Science/Engineering from Yeungnam University, South Korea, under the guidance of Prof. Seok Kyun Noh. His doctoral research focused on Fe (III)-Mediated MMA Polymerization without any external initiator, graduating with an impressive GPA of 4.37/4.5. Dr. Khan also holds a Master of Science degree in Industrial Chemistry from Aligarh Muslim University, where he was awarded a Gold Medal for academic excellence, and a Bachelor’s degree in the same specialization from the same institution.

Dr. Khan’s expertise spans polymer science, chemical engineering, and industrial chemistry, contributing to advancements in sustainable materials and energy solutions.

Professional Experiences:

Assoc. Prof. Dr. Mohd Yusuf Khan is a dedicated research scientist currently serving at King Fahd University of Petroleum & Minerals (KFUPM), Saudi Arabia, in the Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). Since 2021, he has held the position of Research Scientist-II, following a five-year tenure as Research Scientist-III at the same center. Prior to KFUPM, Dr. Khan gained international experience as a Post-doctoral Fellow at both the Center of Excellence in Nanotechnology at KFUPM and Soongsil University in South Korea. He also worked in the industry as a Production Officer at LUPIN Pharma Pvt. Ltd., Bhopal, India.

Awards:

Assoc. Prof. Dr. Mohd Yusuf Khan, currently at King Fahd University of Petroleum and Minerals, Saudi Arabia, has earned numerous accolades throughout his academic and professional career. He was awarded the prestigious BK (Brain Korea)-21 fellowship (2008-2012) for his Ph.D. in South Korea. His innovative research has led to recognition at major events, including the 25th ITEX 2014 for a photothermoelectric air duct system and the ITEX 2023 Appreciation Award for mentoring a gold-winning student at Asia’s leading technology exhibition. Dr. Khan also received the Best Paper Award in 2020 for research on biomass-derived carbon nanosheets, as well as multiple honors for his contributions to polymer science and industrial chemistry. He earned a Gold Medal in his M.Sc. for academic excellence at Aligarh Muslim University.

Publication Top Notes:

Steam reforming of dodecane using Ni-red mud catalyst: A sustainable approach for hydrogen production

Authors: Alfuhaid, L.T., Nasser, G.A., Alabdulhadi, R.A., Yamani, Z.H., Helal, A.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 86, pp. 177–184

Citations: 0

Fabrication and characterization of rippled graphene/LDPE composites with enhanced hydrogen barrier properties

Authors: Alkrunz, M., Shajahan, S., Elkaffas, R., Zweiri, Y., Abdul Samad, Y.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 85, pp. 794–803

Citations: 0

Effect of Synthetic Methodology on the Physicochemical Attributes and Electrocatalytic Activity of NiAl-LDHs for the Oxygen Evolution Reaction

Authors: Hanif, A., Khan, M.Y., Ehsan, M.A., Abdul Aziz, M., Khan, A.

Year: 2024

Journal: Chemistry – An Asian Journal, 2024, 19(16), e202300625

Citations: 1

Tailored design of CO2-selective mixed-matrix membranes using nitrile-functionalized COFs as 2D nanofillers

Authors: Hoque, B., Khan, M.Y., Hanif, A., Usman, M., Drmosh, Q.A.

Year: 2024

Journal: Journal of Environmental Chemical Engineering, 2024, 12(3), 112695

Citations: 3

Thermally Stable and High-Surface-Area Triptycene and Phenanthroline-Based Microporous Polymer for Selective CO2 Capture over CH4 and N2

Authors: Ansari, M., Rehman, A.N., Khan, A., Khan, M.Y.

Year: 2024

Journal: ACS Applied Polymer Materials, 2024, 6(7), pp. 3996–4004

Citations: 1

Amino acid-assisted effect on hydrate-based CO2 storage in porous media with brine

Authors: Rehman, A.N., Bavoh, C.B., Khan, M.Y., Lal, B.

Year: 2024

Journal: RSC Advances, 2024, 14(13), pp. 9339–9350

Citations: 0

Nb2O5/BiOCl composite as a visible-light-active photocatalyst for the removal of RhB dye and photoelectrochemical studies

Authors: Zulkiflee, A., Mansoob Khan, M., Yusuf Khan, M., Khan, A., Hilni Harunsani, M.

Year: 2024

Journal: Journal of Photochemistry and Photobiology A: Chemistry, 2024, 446, 115177

Citations: 11

Printing Parameter Optimization of Additive Manufactured PLA Using Taguchi Design of Experiment

Authors: Ahmed, B.A., Nadeem, U., Hakeem, A.S., Younas, M., Saeed, H.A.

Year: 2023

Journal: Polymers, 2023, 15(22), 4370

Citations: 0

Sn-doped BiOCl for photoelectrochemical activities and photocatalytic dye degradation under visible light

Authors: Zulkiflee, A., Khan, M.M., Khan, A., Dafalla, H.D.M., Harunsani, M.H.

Year: 2023

Journal: Heliyon, 2023, 9(11), e21270

Citations: 7

CO2 Adsorption on Biomass-Derived Carbons from Albizia procera Leaves: Effects of Synthesis Strategies

Authors: Hanif, A., Aziz, M.A., Helal, A., Theravalappil, R., Khan, M.Y.

Year: 2023

Journal: ACS Omega, 2023, 8(39), pp. 36228–36236

Citations: 2