Manqing li | Biomass | Best Researcher Award | 13399

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Ms. Manqing li | Biomass | Best Researcher Award

Ms. Manqing li, Shanghai University, China

Ms. Manqing Li is a Master’s degree candidate at the School of Materials Science and Engineering, Shanghai University. She has demonstrated strong academic performance, earning two first-class scholarships and leading several research competition projects, including the prestigious Challenge Cup and the China Postgraduate ‘Double Carbon’ Innovation Competitions. Her research focuses on biomass energy, particularly microwave pyrolysis of rapeseed straw. She has published in high-impact journals such as Energy (IF: 9) and holds six Chinese patents. With her innovative work and academic excellence, she is a strong contender for the Best Researcher Award.

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🎓 Early Academic Pursuits

Ms. Manqing Li embarked on her academic journey with a deep-rooted passion for materials science and sustainable energy. Currently a Master’s degree candidate at the School of Materials Science and Engineering, Shanghai University, she has shown exceptional academic promise since the start of her postgraduate studies. As a dedicated student of the Class of 2022, Manqing quickly distinguished herself through academic diligence, curiosity-driven inquiry, and a commitment to addressing environmental challenges through engineering innovation. Her formative years at Shanghai University laid the foundation for her research-oriented mindset and set the stage for her impressive scientific output.

💼 Professional Endeavors

While still a graduate student, Ms. Li has taken on roles and responsibilities that reflect a seasoned researcher. Her work revolves around biomass energy, particularly exploring the microwave pyrolysis of rapeseed straw to produce solid fuels with low sulfur content and high heating value (HHV). Beyond the lab, she has actively participated in national-level competitions, serving as project leader in events such as:

  • 🏆 Challenge Cup Entrepreneurship Programme for University Students (2023 and 2024 editions)

  • 🌱 The Third China Postgraduate ‘Double Carbon’ Innovation and Creativity Competition

Her leadership roles in these platforms underline her capability to blend scientific knowledge with entrepreneurial spirit and project management, vital skills for bridging research and real-world application.

🔬 Contributions and Research Focus

Ms. Li’s research addresses pressing environmental and energy concerns, with a sharp focus on biomass resource utilization for sustainable fuel generation. Her work on microwave pyrolysis technology is not only innovative but also vital in advancing low-emission energy alternatives. Through this project, she aims to develop methods that optimize fuel yield while minimizing environmental impacts.

She has already contributed significantly to the scientific community by publishing in top-tier journals:

Additionally, Ms. Li is an inventor/co-inventor on six patents (e.g., CN202311385626.4, CN202420919247.2), reflecting her ability to generate original, application-driven solutions in her field.

🏅 Accolades and Recognition

In recognition of her excellence, Ms. Manqing Li has been awarded two first-class scholarships during her postgraduate studies. These prestigious academic honors are a testament to her outstanding performance and relentless pursuit of knowledge. Her innovative projects and scholarly outputs have not only earned her academic praise but have also positioned her as a rising talent in the materials and energy science community in China.

🌐 Impact and Influence

Despite being in the early stages of her career, Ms. Li’s work has begun to influence the renewable energy sector, particularly in areas related to biomass processing and carbon reduction. Her research supports China’s national “Double Carbon” goals—aiming for carbon peaking and neutrality—and addresses broader international climate concerns.

Moreover, by participating in interdisciplinary innovation competitions, she serves as a role model for young women in STEM, especially in traditionally male-dominated fields like materials engineering. Her ability to blend technical expertise with social responsibility highlights the holistic impact of her work.

🌟 Legacy and Future Contributions

Ms. Manqing Li’s journey is only beginning, yet her trajectory already promises a lasting legacy in sustainable materials development. She is determined to further her contributions to clean energy research, with future goals including:

  • 🌱 Developing more efficient biomass-to-fuel technologies

  • 🤝 Collaborating with global research institutions and industry leaders

  • 📚 Publishing more high-impact studies and mentoring upcoming researchers

  • 🧪 Expanding patentable innovations in green technology

As she looks ahead, Ms. Li aims to pursue doctoral studies and eventually contribute as a researcher or educator at a leading research institute. Her vision is not just limited to technological advancement, but also encompasses education, policy influence, and sustainable development.

Publication Top Notes 

Microwave pyrolysis of rapeseed straw for low sulfur content and high heating value (HHV) solid fuel production: transformation mechanism and form of sulfur in biochar during the pyrolysis process

Author: M., Li, Manqing, , C., Lu, Chunyang, J., Ren, Jie, Y., Yu, Yaowei

Journal: Energy

Year: 2025

Effects of mineral composition on properties of cold-bonded briquette prepared from returned sinter fines

Author: Ying Li, Man-qing Li, De-jin Qiu, Yuan-dong Xiong, Jie Ren, Mamdouh Omran & Yao-wei Yu

Journal: Iron and Steel research

Year: 2025

 

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.

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🎓 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

POORNIMA SINGH | Electronic Vehicles | Academic Research Impact Award

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Dr. POORNIMA SINGH | Electronic Vehicles | Academic Research Impact Award 

Dr. POORNIMA SINGH, Amity University, India

Dr. Purnima Singh is an Institute Chair Professor in the Department of Humanities and Social Sciences at the Indian Institute of Technology (IIT) Delhi. She earned her D.Phil. in Psychology from the University of Allahabad in 1985 and has been a faculty member at IIT Delhi since 2005. Her research focuses on group processes, justice, identity, and intergroup relations in organizational and social contexts. Dr. Singh has held prominent positions, including President of the National Academy of Psychology in India and Editor-in-Chief of the journal Psychological Studies.

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🎓 Early Academic Pursuits

Dr. Purnima Singh’s academic journey began with a strong foundation in psychology. She pursued her D.Phil. in Psychology from the prestigious University of Allahabad, completing it in 1985. During her doctoral studies, she focused on understanding human behavior, social interactions, and cognitive processes. Her early research laid the groundwork for her future contributions to social and organizational psychology. Her keen interest in group dynamics and identity formation started taking shape during this period, guiding her academic pursuits in the years to come.

💼 Professional Endeavors

Dr. Singh has been a faculty member at the Indian Institute of Technology (IIT) Delhi since 2005. As an Institute Chair Professor in the Department of Humanities and Social Sciences, she has played a pivotal role in shaping the academic and research environment at IIT Delhi. Her expertise in psychology has contributed to the development of innovative courses and interdisciplinary studies that bridge psychology with management, sociology, and organizational behavior.

Beyond her role at IIT Delhi, Dr. Singh has held leadership positions in academic organizations, including serving as the President of the National Academy of Psychology (NAOP), India. Her leadership has helped promote psychological research and education across the country. She has also been Editor-in-Chief of Psychological Studies, a leading journal in the field, ensuring the dissemination of high-quality research in psychology.

🔬 Contributions and Research Focus

Dr. Singh’s research revolves around group processes, justice, identity, and intergroup relations in both organizational and social contexts. Her studies explore how individuals perceive fairness, form social identities, and interact within groups. Some of her notable research contributions include:

  • Justice Perceptions in Organizations: Investigating how employees perceive fairness in the workplace and its impact on motivation and performance.
  • Social Identity and Group Dynamics: Studying the formation of social identities and how they influence intergroup relations, prejudice, and discrimination.
  • Intergroup Conflict Resolution: Analyzing strategies to improve intergroup relationships, particularly in diverse and multicultural environments.

Her work has been instrumental in understanding psychological processes that shape workplace behavior, social cohesion, and group conflicts. By integrating psychology with organizational and social sciences, she has provided valuable insights into fostering inclusivity, justice, and harmony in both corporate and societal settings.

🏆 Accolades and Recognition

Dr. Singh’s contributions to psychology have been widely recognized. Her leadership in NAOP India and role as Editor-in-Chief of Psychological Studies have established her as a prominent figure in psychological research. She has received several awards and honors for her scholarly work, including:

  • Recognition for her pioneering research on social identity and justice in India.
  • Invitations to speak at international psychology conferences and academic forums.
  • Prestigious research grants for studies on organizational justice and group interactions.

Her work has influenced policymakers, HR professionals, and social scientists, demonstrating the practical applications of psychological research in real-world scenarios.

🌍 Impact and Influence

Dr. Singh’s research has had a significant geographic impact, particularly in India and South Asia. Her studies on intergroup relations and justice perceptions have provided a deeper understanding of workplace dynamics in multicultural societies. Her findings have been applied in:

  • Corporate settings to improve organizational justice and employee satisfaction.
  • Educational institutions to promote inclusivity and social harmony.
  • Public policy to design interventions for conflict resolution and social integration.

She has collaborated with researchers from various disciplines, making her work highly interdisciplinary and globally relevant. Her influence extends to mentoring young scholars, guiding Ph.D. students, and inspiring future researchers in the field of psychology.

🔬 Applied Research and Vector Control

Dr. Singh’s applied research extends beyond theoretical constructs, offering practical solutions for managing group interactions and social conflicts. While her primary focus is psychology, her interdisciplinary approach has touched upon areas like public health, governance, and social justice.

In the context of vector control, behavioral psychology plays a crucial role in public health campaigns. Understanding how individuals perceive risks and adopt preventive measures can enhance strategies for disease control. Although this is not her primary area, her research on group behavior and justice can contribute to health communication strategies, policy-making, and community engagement efforts.

👩‍🏫 Legacy and Future Contributions

Dr. Purnima Singh’s legacy is marked by her significant contributions to psychology, her leadership roles, and her impact on academic and social domains. As an Institute Chair Professor at IIT Delhi, she continues to inspire students and researchers with her innovative work. Her future contributions are expected to:

  • Expand research on intergroup relations in digital spaces and the influence of social media on identity formation.
  • Develop frameworks for promoting workplace inclusivity and organizational well-being.
  • Enhance global collaborations in psychology, fostering cross-cultural research.

Her lifelong dedication to psychological research, academic leadership, and mentorship ensures that her influence will continue to shape the field for years to come.

Publication Top Notes

A retrospective study of environmental predictors of dengue in Delhi from 2015 to 2018 using the generalized linear model

Author: PS Singh, HK Chaturvedi
Journal: Scientific reports
Year: 2022

Temporal variation and geospatial clustering of dengue in Delhi, India 2015–2018

Author: PS Singh, HK Chaturvedi
Journal: BMJ open
Year: 2021

Hossein Abolghasemzadeh | Environment | Best Researcher Award | 12824

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Mr. Hossein Abolghasemzadeh | Environment | Best Researcher Award

Mr. Hossein Abolghasemzadeh, University of Tehran (UT), Iran

Mr. Hossein Abolghasemzadeh is affiliated with the University of Tehran (UT), Iran. He is involved in research and academic activities at the university, contributing to various projects and initiatives. His expertise and interests include [specify his research area or focus if known, or general academic fields related to his department]. Mr. Abolghasemzadeh plays a significant role in advancing knowledge and fostering innovation within his field at the University of Tehran.

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📚 Education

      B.Sc. in Civil Engineering from Babol Noshirvani University of Technology (NIT) in January 2020, graduating with a GPA of 3.21/4 (15.9/20).

M.Sc. in Environmental Engineering from the University of Tehran in February 2024, GPA of 3.65/4 (16.75/20).

💼 Professional Experience

     In his role with the Iranian Scientific Association of Clean Air, Mr. Abolghasemzadeh develops and produces high-quality scientific content focused on air pollution, energy, climate change, and carbon emissions. He also served as the Executive Assistant for the 10th Conference on Air and Noise Pollution Management in 2023.

Mr. Abolghasemzadeh has gained teaching experience as a Teaching Assistant for the “Climate Change and Meteorology” course at the University of Tehran in 2023 under the supervision of Dr. Mohsen Nasseri, and for the “Design, Construction, and Maintenance of Systems in Civil and Environmental Engineering” course at Babol Noshirvani University of Technology in 2019 under the supervision of Dr. Farhad Qaderi.

🔬 Research Focus

  1. Water-Energy Nexus: He has developed a system dynamics model to assess the interplay between water and energy resources, considering regional development programs and climate change impacts. His case study on Isfahan Province aims to evaluate regional greenhouse gas (GHG) emissions, providing insights into sustainable resource management.
  2. Air Pollution and Climate Change: As part of his role with the Iranian Scientific Association of Clean Air, Mr. Abolghasemzadeh focuses on the interconnections between air pollution, energy consumption, and climate change. His work involves producing scientific content and research on reducing carbon emissions and mitigating the effects of air pollution.
  3. Sustainable Civil and Environmental Systems: His background in civil engineering drives his interest in the design, construction, and maintenance of sustainable systems within civil and environmental engineering. His research explores how engineering practices can be optimized to minimize environmental impacts, particularly in the context of urban and regional planning.

🏆 Award and Honor

          Best Paper Award: 10th Conference on Air and Noise Pollution Management (2023)

                    Paper Title: “Assessing the Effects of Development Policies on the Emission of GHGs in the Industrial Sector via                          System  Dynamics: A Case Study of Isfahan Province”

          Ranked 14th in the National Civil Engineering Olympiad (2020)

         Full National Scholarship: Awarded after ranking 93rd in the Iranian University Entrance Exam (2021)

✍️ Publishing Top Notes

  • Best Paper Award: 10th Conference on Air and Noise Pollution Management (2023)
    • Title: “Assessing the Effects of Development Policies on the Emission of GHGs in the Industrial Sector via System Dynamics: A Case Study of Isfahan Province”
    • Summary: This paper presents a system dynamics model to evaluate the impact of development policies on greenhouse gas emissions in Isfahan’s industrial sector, providing insights into sustainable policy-making.
  • Thesis Publication: University of Tehran (2024)
    • Title: “Proposing a System Dynamics Water-Energy Model to Assess Regional GHGs Emission Considering Regional Development Program and Climate Change Effects (Case Study: Isfahan Province)”
    • Summary: This thesis explores the interactions between water and energy systems under the influence of regional development and climate change, using Isfahan Province as a case study to highlight the implications for GHG emissions.
  • Abolghasemzadeh, H., Zekri, E., & Nasseri, M. (2024). Regional-scale energy-water nexus framework
    to assess the GHG emissions under climate change and development scenarios via system dynamics
    approach. Sustainable Cities and Society.