Dr. Yonghong Fu | Nanomaterials for Energy | Best Researcher Award
Dr. Yonghong Fu, School of Earth Science and Technology, Southwest Petroleum University, China
š Dr. Yonghong Fu is a distinguished scholar from the School of Earth Science and Technology at Southwest Petroleum University, China. Over a decade of academic pursuit led him to achieve bachelor’s, master’s, and doctoral degrees in Geological Resources and Geological Engineering. Noteworthy accolades include the Second Prize of Chongqing Science and Technology Progress Award and a string of scholarships for academic excellence. His impactful research encompasses over 20 publications, including 8 SCI papers and 4 national invention patents. An adept project leader, Dr. Fu successfully secured funding for multiple key initiatives from prestigious institutions, showcasing his commitment to advancing geological sciences. šāļøš
š Education:
Bachelor’s, Master’s, and Doctoral degrees in Geological Resources and Geological Engineering from the School of Earth Science and Technology, Southwest Petroleum University (2010 – Present)
š Academic Achievements:
Second Prize of Chongqing Science and Technology Progress Award (7th place). National Scholarship, National Inspirational Scholarship. First Class Academic Scholarship. Outstanding Student Cadre, Outstanding Youth League Member. Outstanding Three Good Students, Outstanding Graduates at the school level. Approved for a key project of Sichuan Provincial Department of Science and Technology‘s Seedling Engineering. Published more than 20 domestic and foreign papers, including 8 SCI papers and 4 national invention patents. Published one monograph. Attended one international academic conference in the United States and five domestic academic conferences. Approved for the 2019 China Association for Science and Technology‘s Excellent Sino-foreign Youth Exchange Program.
š¬ Research & Development Contributions:
Led over 10 scientific research projects funded by the National Natural Science Foundation of China, PetroChina, Sinopec, and others. Conducted groundbreaking research on micro- and nano-scale pores in shale reservoirs. Developed innovative testing methods using field emission-scanning electron microscopy and methane-saturated nuclear magnetic resonance tests. Investigated Longmaxi shale cores from different burial depths in Zhaotong, Weiyuan, and Luzhou areas. Established an NMR method for saturated methane to test free gas content and predict shale reservoirs at different burial depths. Revealed the impact of burial depth and pore structure on shale gas content. Predicted total gas content in deep shale reservoirs, enhancing confidence in exploration and development possibilities.
š International Recognition:
Successfully approved for the 2019 China Association for Science and Technology‘s Excellent Sino-foreign Youth Exchange Program. Presented research findings at an international academic conference in the United States.
š Current Focus:
Continuing research and exploration in the field of Geological Resources and Geological Engineering. Actively involved in ongoing scientific research projects and contributing to advancements in shale gas reservoir understanding.
Professional Profiles:
The impact of her research is evident in citation metrics and indices from Google Scholar:
- Cited by: All ā 359.
- Citations ā 301.
- h-index ā 33.
- Documents ā 12.
A prolific researcher making meaningful contributions to the academic world!
š Research Focus
Dr. Yonghong Fu specializes in the sedimentology and geochemistry of shale formations, particularly focusing on the Lower Permian Shanxi Formation Shan 23 Submember Transitional Shale in the Eastern Ordos Basin, North China. His research has garnered attention with 14 citations in 2022, highlighting the significance of his contributions. Dr. Fu’s work extends to the characterization of pore structure and heterogeneity in Western Chongqing’s Wufeng Formation-Sublayers Long-11 shale, as well as lithofacies division and reservoir development factors in the Luzhou region. His expertise also delves into nanoscale pore characteristics, influencing shale gas occurrence and exploration potential in various basins, showcasing a comprehensive understanding of shale reservoirs. šŖØš¬
Publications Top Note:
- Sedimentology and Geochemistry of the Lower Permian Shanxi Formation Shan 23 Submember Transitional Shale, Eastern Ordos Basin, North China
Cited by: 14Ā Ā Year: 2022
- Characterization of Pore Structure and Heterogeneity of Shale Reservoir from Wufeng FormationāSublayers Longā11 in Western Chongqing Based on Nuclear Magnetic Resonance
Cited by: 13Ā Ā Year: 2022
- Lithofacies division and main controlling factors of reservoir development in Wufeng FormationāLong11 sub-member shale in the Luzhou region, South Sichuan Basin
Cited by: 7Ā Ā Year: 2022
- Nanoscale Pore Characteristics of the Lower Permian Shanxi Formation Transitional Facies Shale, Eastern Ordos Basin, North China
Cited by: 5Ā Ā Year: 2022
- Pore Structure and Controlling Factors of Different Lithofacies in Transitional Shale: A case study of the Shanxi Formation Shan32 submember, eastern Ordos Basin
Cited by: 5Ā Ā Year: 2023
- Paleogeomorphic characteristics of WufengāLongmaxi formation and its influence on development of high-quality shale in Dazu area, Western Chongqing
- Influence of micro pore structure of shale reservoir on shale gas occurrence in western Chongqing
- Reservoir characteristics and pore fluid evaluation of Shan 23 Submember transitional shale, eastern Ordos Basin, China: Insights from NMR experiments
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Lithologic assemblage characteristics and shale gas exploration potential of transitional shale in the Ordos Basin