Assoc. Prof. Dr Baolin Yang | Materials for Energy Applications | Best Researcher Award

Assoc. Prof. Dr. Baolin Yang 🎓 is a leading expert in geological engineering and hydrocarbon systems 🔬⛽. With a Ph.D. from China University of Geosciences (Wuhan) and postdoctoral work in geological resources, he focuses on reservoir stimulation, carbon sequestration 🌍, and unconventional energy systems ⚡. He has led 20+ national and industrial research projects, published extensively in top journals 📚, and holds two national patents 🧪. As a dedicated educator 👨‍🏫, he mentors Ph.D. and Master’s students with award-winning excellence 🏅. His innovative, interdisciplinary contributions continue to impact academia and the energy sector globally 🌐.

Assoc. Prof. Dr Baolin Yang, China University of Geoscience, China

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Education 🎓

Assoc. Prof. Dr. Baolin Yang pursued his entire academic journey at the prestigious China University of Geosciences in Wuhan 🇨🇳. He earned his Bachelor’s degree (2005–2009) in the Faculty of Earth Resources, laying a solid foundation in geological sciences 🌍. He then advanced to complete his Doctorate in Engineering (2009–2014) from the same faculty, specializing in hydrocarbon systems and geological engineering ⛏️🔬. This rigorous academic path equipped him with deep technical expertise and research proficiency, setting the stage for his impactful career in energy exploration, carbon management, and reservoir engineering 💡⚙️.

Professional Experience

Since September 2014, Assoc. Prof. Dr. Baolin Yang has been a dedicated faculty member at China University of Geosciences, Wuhan 🏛️. Serving in both teaching and research roles, he has made outstanding contributions in the field of hydrocarbon exploration, reservoir stimulation, and energy resource engineering ⚒️💧. His role spans mentoring students, leading national research projects, and collaborating with major industry stakeholders like Sinopec, CNPC, and CNOOC 🛢️🤝. With a strong blend of academic and industrial engagement, Dr. Yang continues to shape the future of geological engineering and sustainable energy technologies 🌱📈.

Teaching Experience 👨‍🏫

Assoc. Prof. Dr. Baolin Yang is a passionate educator with vast teaching experience across undergraduate, graduate, and international programs 🌍. He teaches courses like Oilfield Chemistry, Reservoir Protection Technology, and Geothermal Engineering 💧🔥. His supervision includes 2 international Ph.D. candidates, 18 Master’s, and 13 undergraduate students, with multiple accolades such as Outstanding Thesis Supervisor and Teaching Quality Awards 🏆. He led the Construction of a First-Class Petroleum Engineering Program and received honors in teaching competitions and internship mentorships 🎓🛠️. His dedication reflects a deep commitment to academic excellence and student development 💡🌟

Research Focus 🔬

Assoc. Prof. Dr. Baolin Yang’s research is centered on hydrocarbon accumulation dynamics in petroliferous systems, with special focus on the mechanisms of hydrocarbon enrichment and unconventional reservoir stimulation and protection 💥🛢️. His work explores the role of fault structures in influencing oil and gas distribution, especially in regions like the Liaoxi Depression of the Bohai Bay Basin, Eastern China 🌍⛏️. By combining field data with advanced modeling techniques, his research supports energy exploration and sustainable extraction 🔍⚙️. Dr. Yang’s studies provide vital insights into enhancing reservoir productivity and understanding complex geological systems 🧠🌐.

Research Leadership 🛢️

Assoc. Prof. Dr. Baolin Yang has led and contributed to over 20 pivotal research projects aligned with China’s strategic “12th” through “15th” Five-Year Plans 📅🇨🇳. His roles—ranging from Principal Investigator to Technical Chief—span collaborations with energy giants like CNOOC, CNPC, Sinopec, and PowerChina ⚙️🏭. His projects explore hydrocarbon accumulation, tight gas and shale oil dynamics, geothermal systems, CO₂ storage, and fracturing technologies 🌍💡. These groundbreaking initiatives drive innovation in reservoir characterization, modeling, and stimulation while supporting national energy security and sustainability goals 🔋🌱. His leadership continues to shape the future of geological engineering.

Publication 📚

“Advances in Enhanced Geothermal Systems: Integrating Laboratory, Numerical and Field Insights” 🔬💡🌍

📚 Journal: Applied Thermal Engineering, 2024 🏛️

👥 Authors: Jian Liu, Chun Shao, Baolin Yang, Sadock S. Josephat, Mohammed Dahiru Aminu ✍️🧑‍🔬

“Lithofacies and Depositional Model of Organic-Rich Lacustrine Mudstone: A Case Study of the Second Member of the Eocene Liushagang Formation in the Weixinan Sag, Beibuwan Basin, China” ⛏️🪨🌊

📚 Journal: Quarterly Journal of the Geological Society of London, 2025 🏛️

👥 Authors: Niubin Zhao, Jiaren Ye, Ronghu Zhang, Yiming Liu ✍️📖

These articles showcase Dr. Yang’s contribution to cutting-edge research in geothermal systems and organic-rich sedimentology, reinforcing his impact in the energy and geoscience fields.

Prof. Dr Danni Lei | Materials for Secondary Batteries | Best Researcher Award

Prof. Dr. Danni Lei is a leading materials scientist specializing in energy storage and nanomaterials ⚡🔍. She earned her Ph.D. from Hunan University with joint training at Georgia Institute of Technology 🎓 and completed postdoctoral research at Tsinghua University (2016-2018) 🏛️. Now a full professor at Sun Yat-sen University, she has published 55+ SCI-indexed papers 📄, including Science, and holds 12 patents 🏅. Her innovations in metal alkoxide nanowires revolutionize battery materials 🔋. As an editorial board member and industry collaborator, she bridges academia and real-world applications, making her a standout scientist in materials research 🌍🔧.

Prof. Dr Danni Lei Sun Yat-sen, Zhongshan, University, School of Materials Science and Engineering, China

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Education 🎓

Prof. Dr. Danni Lei earned her Ph.D. in 2016 from Hunan University 🏛️, with joint training at Georgia Institute of Technology (USA) 🇺🇸 through a prestigious Chinese government scholarship 🎖️. She further advanced her expertise with postdoctoral research at Tsinghua University (2016-2018) 🔬📚. In 2018, she was selected for Sun Yat-sen University’s esteemed “Hundred Talents Program” 🌟, where she rapidly progressed in academia. Her exceptional contributions led to her promotion as a full professor in 2023 🏅. With a strong academic foundation and global exposure, she continues to excel in materials science research ⚡🔍.

Experience 🏛️

Prof. Dr. Danni Lei earned her Ph.D. from Hunan University in 2016, with joint training at Georgia Institute of Technology (USA) 🌍📚 through a Chinese government scholarship. She then pursued postdoctoral research at Tsinghua University (2016-2018) 🏛️, deepening her expertise in materials science. In 2018, she was recruited under Sun Yat-sen University’s prestigious “Hundred Talents Program” 🌟 and rapidly advanced in her career. Her exceptional contributions led to her promotion to full professor in 2023 🎖️. With a strong background in academia and research, she continues to drive innovation in energy storage and nanomaterials ⚡🔍.

Research Focus 🔋

Prof. Dr. Danni Lei specializes in materials for secondary batteries, focusing on advancing next-generation energy storage technologies 🔋⚡. Her research explores high-performance battery materials, including metal alkoxide nanowires synthesized through a catalyst-free selective dealloying technique 🧪🔍. This innovation significantly reduces production costs while enhancing efficiency. She also works on lithium-ion battery electrolytes, collaborating with industry partners to develop cutting-edge solutions 🏭🔄. Her work bridges fundamental research with real-world applications, aiming to revolutionize energy storage for sustainable and high-capacity battery systems 🌍🔄. Her contributions play a crucial role in shaping the future of battery technology 🚀.

Contributions 🔬

Prof. Dr. Danni Lei has made groundbreaking contributions to materials science and energy storage 🔋⚡. She has published over 50 research papers in prestigious journals, including Science 📖🌍. Her pioneering work on a catalyst-free selective dealloying technique enables the transformation of bulk alloys into metal alkoxide nanowires under ambient conditions 🏭🔬. This innovative approach allows kilogram-scale production in standard laboratories, reducing costs by 50% while enhancing performance 📉💡. The resulting high-performance electrodes, separators, and electrolytes show immense potential for industrial commercialization, shaping the future of next-generation energy storage solutions 🚀🔄.

Publications 📚

Regulate the Chemical Property of the Carbon Nanospheres Layer Modified on the Surface of Sodium Metal Anode to Achieve High-Load Battery 🧪⚡🔋

Authors: C. Li, X. Zheng, M. Sun, D. Lei, C. Wang
Journal: Nano Research, 2024

Double-Layer Carbon Coated on the Micrometer Bismuth by Photothermal Effect as Anode for High-Rate Sodium-Ion Batteries 🌞🔬🔋

Authors: X. Zou, S. Ye, C. Ou, D. Lei, C. Wang
Journal: Energy Storage Materials, 2024

The Lithium Storage Mechanism of Zero-Strain Anode Materials with Ultralong Cycle Lives 🔋💡🔬

Authors: Z. Li, D. Yu, J. Xie, D. Lei, C. Wang
Journal: ACS Applied Materials and Interfaces, 2024

Built-In Electric Field of In Situ Formed Artificial Interface Layer Induces Fast and Uniform Sodium-Ions Transmission to Achieve a Long-Term Stable Sodium Metal Battery Under Harsh Conditions ⚡🔬🔋

Authors: J. Xie, Z. Li, X. Zheng, D. Lei, C. Wang
Journal: Advanced Functional Materials, 2024

3D Porous Reduced Graphene Cathode and Non-Corrosive Electrolyte for Long-Life Rechargeable Aluminum Batteries 🏗️🔬🔋

Authors: X. Zheng, Y. Xie, F. Tian, D. Lei, C. Wang
Journal: Energy Materials and Devices, 2024

The Intermolecular Interaction Enables Ordered Ion Transport in Quasi-Solid-State Electrolyte for Ultra-Long Life Lithium-Metal Battery 🔋🔬⚛️

Authors: C. Ou, S. Ye, Z. Li, D. Lei, C. Wang
Journal: Energy Storage Materials, 2024