Zitong Fei | Environment | Best Researcher Award

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Dr. Zitong Fei | Environment | Best Researcher Award

Postdoctoral at Tsinghua Shenzhen International Graduate School, China

Dr. Zitong Fei, born in August 1997, is a materials scientist specializing in the recycling and regeneration of spent lithium-ion battery cathode materials. She earned her Ph.D. in Metallurgical Physical Chemistry from Kunming University of Science and Technology in 2024, where she also completed her Master’s degree in Metallurgical Engineering in 2020. Under the supervision of Professor Yingjie Zhang, her research has focused on high-voltage LiCoO₂ cathode materials and sustainable regeneration technologies for cobalt-based electrodes.

Profile:

🎓 Educational Background:

  • Ph.D. in Metallurgical Physical Chemistry (2020.08 – 2024.06)
    Kunming University of Science and Technology
    Research Focus: Direct regeneration mechanisms of spent LiCoO₂ cathode materials
    Supervisor: Prof. Yingjie Zhang

  • M.Sc. in Metallurgical Engineering (2019.08 – 2020.07)
    Kunming University of Science and Technology
    Research Focus: High-voltage LiCoO₂ cathode material design

🧪 Research Expertise:

Dr. Fei’s work revolves around the regeneration and recycling of spent lithium-ion batteries, with a particular focus on cathode material recovery, environmental sustainability, and green chemistry applications.

🛠️ Patents (10+):

  • Targeted oxidative solvent for cathode regeneration

  • Single crystal and rapid regeneration methods for ternary materials

  • Battery disassembly and recycling devices

  • Deep eutectic solvent recovery systems

Dr. Fei holds over 10 national and international patents in advanced lithium battery recycling technologies.

📊 Citation Metrics:

  • Total Citations: 522

  • Cited by: 387 documents

  • Total Publications: 20

  • h-index: 10

Publication Top Notes:

  • Su, Y., Fei, Z., Fan, Y., Peng, X., & Dong, P. (2025). Enhanced selective lithium extraction and regeneration of spent LiNi₁/₃Co₁/₃Mn₁/₃O₂ through carbon–sulfur composite roasting. Separation and Purification Technology.

  • Liu, Q., Li, Y., Fei, Z., Peng, X., & Dong, P. (2025). Review and perspectives on direct regeneration of spent ternary cathode materials based on failure mechanisms. (Journal name not specified).

 

Hadi Yazdi | Urban tree | Young Scientist Award

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  Mr Hadi Yazdi |  Urban tree |  Young Scientist Award

Research associate / PhD candidate at  Technical university of munich, Germany

Hadi Yazdi is a Research Associate and PhD candidate at the Technical University of Munich. He holds a double Master of Science degree from Brandenburg Technical University, Germany, and Poznan University of Technology, Poland. His research focuses on computational methods and machine learning for urban tree canopy growth prediction, with a particular emphasis on data-driven approaches for Urban Green Infrastructure (UGI). His PhD thesis investigates target-driven tree planning and tree species recognition using machine learning. Hadi has published several papers, including work on optimizing tree planting locations and tree crown development in competitive urban settings. He is part of the RTG UGI research group.

Publication profile:

🎓 Academic Background:

Hadi holds a Master of Science in Architecture from Brandenburg Technical University, Germany, and Poznan University of Technology, Poland. His Master’s thesis focused on “Central Courtyard Feature Extraction in Remote Sensing Aerial Images Using Deep Learning”

🌳 Research Focus:

His PhD research explores target-driven tree planting in urban environments, employing computational methods and machine learning to optimize urban green infrastructure (UGI). His innovative work emphasizes tree canopy growth prediction and developing location optimization models for tree planting.

🔬 Key Research Projects:

  • TreeML-Data: A comprehensive dataset on urban tree structure and graph models (Published)
  • TreeML-Species Recognition: Automated classification of tree species using neural networks (Under Review)
  • TreeML-Planter: A 3D model for optimizing tree planting locations using temporal tree crown geometry prediction (Ready for submission)

🔗 Collaborations & Memberships

He is part of the Urban Green Infrastructure Research Group (RTG UGI), collaborating on interdisciplinary projects with 13 PhD candidates and 15 Principal Investigators.

 

Publication Top Notes:

  • Deep learning in historical architecture remote sensing: Automated historical courtyard house recognition in Yazd, Iran
    H. Yazdi, S. Sad Berenji, F. Ludwig, S. Moazen
    Heritage, 5(4), 3066-3080, 2022
  • A target-driven tree planting and maintenance approach for next generation urban green infrastructure (UGI)
    H. Yazdi, Q. Shu, F. Ludwig
    JoDLA – Journal of Digital Landscape Architecture, 178-185, 2023
  • Central courtyard feature extraction in remote sensing aerial images using deep learning: A case-study of Iran
    H. Yazdi, I. Vukorep, M. Banach, S. Moazen, A. Nadolny, R. Starke, …
    Remote Sensing, 13(23), 4843, 2021
  • Daylightophil approach towards high-performance architecture for hybrid-optimization of visual comfort and daylight factor in BSk
    M. Mahdavinejad, H. Yazdi
    International Journal of Architectural and Environmental Engineering, 11(9), 2017
  • A multilayered urban tree dataset of point clouds, quantitative structure and graph models
    H. Yazdi, Q. Shu, T. Rötzer, F. Petzold, F. Ludwig
    Scientific Data, 11(1), 28, 2024
  • The methods of deep learning and big data analysis in promoting sustainable architecture
    H. Yazdi, I. Vukorep, H. Bazazzadeh
    IOP Conference Series: Earth and Environmental Science, 1078(1), 012136, 2022
  • Predicting resprouting of Platanus × hispanica following branch pruning by means of machine learning
    Q. Shu, H. Yazdi, T. Rötzer, F. Ludwig
    Frontiers in Plant Science, 15, 1297390, 2024
  • TreeML-Data: A multidisciplinary and multilayer urban tree dataset
    H. Yazdi, Q. Shu, T. Rötzer, F. Petzold, F. Ludwig
    Figshare, 2023
  • Machine learning-based prediction of tree crown development in competitive urban environments
    H. Yazdi, A. Moser-Reischl, T. Rötzer, F. Petzold, F. Ludwig
    Urban Forestry & Urban Greening, 128527, 2024
  • GroTree: A novel toolbox for simulating and managing urban tree canopy growth
    H. Yazdi, Q. Shu, X. Chen, T. Rötzer, F. Ludwig
    Journal of Digital Landscape Architecture, 815-825, 2024
  • A systems perspective on the interactions between urban green infrastructure and the built environment
    R. Reitberger, N. Pattnaik, L. Parhizgar, C. Trost, H. Yazdi, M. A. Rahman, …
    IOP Conference Series: Earth and Environmental Science, 1363(1), 012071, 2024
  • Urban green infrastructure for resilient urban transformations: A system dynamics modelling approach for streets as multifunctional spaces
    J. Micklewright, M. Baghaie Poor, E. Fakirova, H. Yazdi, M. A. Rahman
    Proceedings of 37th PLEA Conference, Sustainable Architecture and Urban Design, 2024
  • Digital workflow for novel urban green system design derived from a historical role model
    F. Ludwig, M. Hensel, T. Rötzer, A. Ahmeti, X. Chen, H. I. Erdal, A. Reischel, …
    2024
  • Results brochure of the research training group Urban Green Infrastructure – Training next generation professionals for integrated urban planning research
    S. Pauleit, I. Alim, M. Baghaie Poor, F. Banihashemi, N. Berger, M. Egerer, …
    2024
  • The effect of improper interfering in the historical architecture on energy wasting (Case study: Bibi-Roqayyeh House, Yazd, Iran)
    H. Yazdi, G. Mügge, S. Movafagh, M. H. Fallahi, F. Ludwig, S. Moazen
    IOP Conference Series: Earth and Environmental Science, 1196(1), 012103, 2023
  • Can leaf area density be estimated from quantitative structure models of trees?
    Q. Shu, T. Rötzer, H. Yazdi, A. Moser-Reischl, F. Ludwig
    Available at SSRN, 4855810, 2024

 

 

Thongsouk Sompouviset | Climate Change | Young Scientist Award

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Dr. Thongsouk Sompouviset | Climate Change | Young Scientist Award

Teacher, NWAFU, China

Dr. Thongsouk Sompouviset is a dedicated researcher and environmental scientist from Laos, specializing in plant nutrition and climate change. With a solid academic background and hands-on experience in greenhouse gas analysis, he has contributed significantly to understanding the impacts of agricultural practices on the environment. His work, spanning from field surveys to advanced research, reflects a commitment to sustainable agricultural practices and environmental management.

Profile

Orcid

Education 🎓 

Dr. Thongsouk Sompouviset earned his PhD in Plant Nutrition with a focus on Climate Change from Northwest A&F University, China, from 2019 to 2023, achieving a GPA of 3.80. His doctoral research examined the influence of combined organic and inorganic fertilizer applications on greenhouse gas emissions in apple orchards on Weibei dryland, earning him the Outstanding Activities Student Award in 2022. Prior to his PhD, Dr. Sompouviset completed a Master’s in Plant Nutrition (Climate Change) at the same institution from 2015 to 2019, graduating with a GPA of 3.55. His Master’s thesis explored the effects of cover crops combined with manure and chemical fertilizers on greenhouse gas emissions in apple orchards, and he received the Best Student Award in 2019. Dr. Sompouviset also holds a Bachelor of Arts in Environmental Science from the National University of Laos (2007-2012), where he achieved a GPA of 3.48. His undergraduate thesis focused on the study process and water management of the Kaolieo water supply company, and he was recognized with awards in debate competitions, essay contests, and as an outstanding student. Additionally, he completed a Vocational Diploma in General English from Sahakitsamphan College (2008-2011) and is currently pursuing ongoing English studies (IELTS) at Vientiane College from January to August 2024.

Experience 💼

Professionally, Dr. Sompouviset has been serving as a Coordinator and Translator at Sino-Agri Potash Co., Ltd in Vientiane Capital, Laos, since January 2024. Prior to this, he managed the Environment and Social Department at Sino-Agri Potash Co., Ltd in Khammuane, Laos, from September 2012 to July 2015

Research Interests 🔬

Impact of Organic and Inorganic Fertilizers on Greenhouse Gas Emissions: This research investigates how the use of both organic and inorganic fertilizers affects the emission of greenhouse gases in agricultural settings. The combination of these fertilizers can influence soil processes and plant growth, potentially altering the levels of methane (CH₄), nitrous oxide (N₂O), and carbon dioxide (CO₂) released into the atmosphere. Studies typically focus on optimizing fertilizer practices to reduce greenhouse gas emissions while maintaining crop yields.

Effects of Plastic Mulching and Cover Crops on Environmental Sustainability: Plastic mulching and the use of cover crops are techniques aimed at improving soil health and enhancing environmental sustainability. Plastic mulching helps in moisture retention, temperature regulation, and weed suppression, which can indirectly impact greenhouse gas emissions. Cover crops, on the other hand, contribute to soil organic matter, reduce erosion, and enhance nutrient cycling. Research in this area evaluates how these practices affect soil health, greenhouse gas emissions, and overall environmental sustainability.

Climate Change Adaptation and Greenhouse Gas Mitigation Strategies in Agriculture: This area of study focuses on developing strategies for agriculture to adapt to the impacts of climate change while simultaneously mitigating greenhouse gas emissions. Adaptation strategies may include altering crop varieties, adjusting planting dates, and improving irrigation practices. Mitigation strategies might involve adopting more sustainable farming practices, enhancing soil carbon sequestration, and optimizing fertilizer use. The goal is to create resilient agricultural systems that can cope with climate change and reduce their carbon footprint.

Awards 🏆

Outstanding Activities Student Award (2022)
Northwest A&F University, China

Best Student Award (2019)
Northwest A&F University, China

Publications 📝

Combined application of organic and inorganic fertilizers effects on the global warming potential and greenhouse gas emissions in apple orchard in the Loess Plateau Region of China. link

The effects of plastic mulching combined with different fertilizer applications on greenhouse gas emissions, intensity, and apple yield in Northwestern China. link

Evaluation of Soil and Leaf Potassium, Calcium, Magnesium, and Micronutrient Status and Their Relationship in the Main Apple Production Areas of the Loess Plateau, China. link

Distinguishing the contribution of nitrogen fertilizer and native soil nitrogen to young apple trees . link