朱洪建-车辆与能源学院

教育背景
工作履历
科研信息
学术论文
教学信息
指导研究生
学术兼职

2011.09-2015.07 防灾科技学院地球科学学院地质学专业理学学士

2015.09-2017.07 中国科学院大学地球与行星科学学院构造地质学专业理学硕士

2017.09-2020.07中国科学院大学地球与行星科学学院构造地质学专业理学博士

近年主持的主要科研项目有：

(1)新型油气勘探开发国家科技重大专项子课题，页岩纳米孔-缝跨尺度精细表征与定量评价，2025-2030，在研, 主持

(2) 河北省自然科学基金委员会, 优秀青年科学基金项目, ,基于高温高压实验的页岩剪切变形与纳米孔隙响应机制研究, 2023-2025, 结题, 主持

(3) 国家自然科学基金委员会, 青年科学基金项目，页岩纳米孔隙结构演化的构造约束机制及页岩气意义, 2022-2024, 结题, 主持

(4) 河北省教育厅青年拔尖人才项目, 构造-岩浆热作用对页岩微纳米级孔-缝与储层物性的改造机理研究, 2022-2024，结题, 主持

(5) 中石化勘探开发研究院, 低角度滑脱变形对深层页岩孔-缝发育的控制机理研究, 2022-08 至 2024-08, 结题，主持

(6)中石化石油工程技术研究院, 基于高温高压实验的深层页岩剪切缝发育机制与定量评价研究, 2023-11 至 2026-05, 结题，主持

(7)自然资源部碳封存与地质储能工程技术创新中心, 基于高温高压试验的超临界二氧化碳与页岩相互作用机理研究, 2024-01 至 2024-12, 结题, 主持

近年参与的主要科研项目有：

(1) 国家自然科学基金：页岩流变的纳米效应及其赋气机理研究（2014-2017）；

(2) 国家自然科学基金：构造演化过程中泥页岩层变形作用及其富气机理研究（2015-2020）；

(3) 国家自然科学基金：有机质与金属矿共存的微纳米尺度特征及成藏成矿机理（2019-2022）；

(4) 国家自然科学基金：尼泊尔喜马拉雅地区中部新生代盆地构造热演化及其动力学研究（2019-2022）；

(5) 国家科技重大专项：三气”合采储层非均质性表征与可改造评价技术（2016-2020）；

(6) 四川省科技支撑计划项目：大村煤层气和煤系气合采先导试验技术研究（2016-2019）；

(7) 中国石油集团川庆钻探工程有限公司企业外协课题：深层富有机质页岩高温高压流变试验（2021-2022）。

科研获奖情况：

(1) 2020年，中国科学院院长特别奖；

(2) 2024年，AGER杰出青年编委；

（3）2025年，河北省石油协会青年科技创新奖一等奖

第一作者或通讯作者论文：

2025-2026年最新：

(1) Hongjian Zhu; Yiwen Ju; Yanjun Lu; Manping Yang; Hongye Feng; Peng Qiao; Yu Qi ; Naturalevidence of organic nanostructure transformation of shale during bedding-parallel slip, Geological Society of America Bulletin, 2025（中科院一区TOP，SCI收录，ESI高被引）

（2）Changliang Wu, Hongjian Zhu*(通讯作者), Yiwen Ju, Zongquan Hu*, Yanjun Lu, Ali Raza, Jianchao Cai. CO₂ phase fluctuation-induced topological damage enhances shale strength. International Journal of Rock Mechanics & Mining Sciences, 2025, 194, 106206.（中科院一区TOP，SCI收录）

（3）Manping Yang, Yanyan Pan, Hongye Feng*, Qiang Yan, Yanjun Lu, Wanxin Wang，Yu Qi, Hongjian Zhu*(通讯作者). Fractal Characteristics of Pore Structure of Longmaxi Shales with Different Burial Depths in Southern Sichuan and Its Geological Significance. Fractal Fract. 2025, 9, 2. (中科院二区，ESI高被引、热点论文)

（4）Hongjian Zhu, Bo Qi, Jianhui Li, Cai Li, Ali Raza, Chaobin Guo*. Unlocking the shiny surface features of shale shear fractures at micro-nanoscale. Advances in Geo-Energy Research, 2025, 18(2): 202-206. (中科院一区TOP)

（5）Jinxuan Han, Ming Gao*, Yubo Wu, Ali Raza, Pei He, Jianhui Li, Yanjun Lu, Manping Yang, Hongjian Zhu* (通讯作者). Experimental Study of Confining Pressure-Induced Fracture Network for Shale Gas Reservoir Under Triaxial Compression Conditions. Fractal Fract. 2025, 9, 311. (中科院二区)

(6) Yujiao Han, Hongjian Zhu* (通讯作者), Lipeng Yan, Hongye Feng*, Yanyan Pan. Direct Observation of Clay Fabrics and Clay Pores in Naturally Faulted Shales. Energy & Fuels, 2025, 39, 11122−11133.

(7) Jian Gao, Hongjian Zhu* (通讯作者), Shuangjian Li, Yanjun Lu, and Yiwen Ju. Organic Geochemistry and Organic Carbon Structure of Gas-Producing Longmaxi Shales in Sichuan Basin. ACS Omega, 2025, 10, 35196−35206.

(8) 潘妍妍，杨满平，路艳军，林郁，魏铭伯，朱洪建*(通讯作者). 构造变形页岩纳米孔隙结构及其分形特征—以渝东北地区大巴山前陆冲断带龙马溪组为例．油气地质与采收率. 2026. https://doi.org/10.13673/j.pgre.202406003.

(9) Yu Lin, Hongjian Zhu* (通讯作者), Hongye Feng, Yiwen Ju, Yanjun Lu, Yanyan Pan, Ci Song. Application of Raman Spectroscopy in Oil and Gas Geological Research. Journal of GeoEnergy, 2025, 3984723.

(10) 吴长亮, 朱洪建* (通讯作者), 路艳军, 郑黎明, 韩金轩, 魏铭伯, 高明, 戚宇. CO₂与页岩气储层相互作用研究进展及其地质封存意义. 世界石油工业, 2026, 33(3): 1-10.

其他年度：

(2)Hongjian Zhu; Yanjun Lu; Yanyan Pan; Peng Qiao; Ali Raza; Wei Liu ; Nanoscale mineralogy and organic structure characterization of shales: Insights via AFM-IR spectroscopy, Advances in Geo-Energy Research, 2024, 13(3): 231-236（中科院一区TOP，EI收录）

(3)Gao, M., Yang, M., Lu, Y., Levin, V. A., He, P., Zhu, H. Mechanical characterization of uniaxial compression associated with lamination angles in shale. Advances in Geo-Energy Research, 2024, 13(1): 56-68（中科院一区TOP，EI收录）

(4) Hongjian Zhu, Yiwen Ju, Manping Yang, Cheng Huang, Hongye Feng, Peng Qiao, Chao Ma, XinSu, Yanjun Lu, Erxiu Shi, Jinxuan Han. Grain-scale petrographic evidence for distinguishingdetrital and authigenic quartz in shale: How much of a role do they play for reservoir propertyand mechanical characteristic?, Energy, 2022, 239(2022): 122176（中科院一区TOP，SCI收录）

(5) Hongjian Zhu; Cheng Huang; Yiwen Ju; Hongling Bu; Xiaoshi Li; Manping Yang; QingzhongChu; Hongye Feng; Peng Qiao; Yu Qi; Pinghua Ma; Liming Zheng; Yanjun Lu ; Multi-scale multidimensional characterization of clay-hosted pore networks of shale using FIBSEM, TEM, and X-raymicro-tomography: Implications for methane storage and migration, Applied Clay Science, 2021,213(2021): 106239（中科院一区TOP，SCI收录）

(6) Zhu HJ, Ju YW, Huang C, Chen FW, Chen BZ, Yu K. 2020. Microcosmic gas adsorption mechanism on clay-organic nanocomposites in a marine shale. Energy, 197: 117256.（中科院一区TOP，SCI收录）

(7) Zhu HJ, Ju YW, Huang C, Han K, Qi Y, Shi MY, Yu K, Feng HY, Li WY, Ju LT, Qian J. 2019. Pore structure variations across structural deformation of Silurian Longmaxi shale: an example from the Chuandong Thrust-Fold belt. Fuel, 241, 914-932. （中科院一区TOP，SCI收录）

(8) Zhu HJ, Ju YW, Qi Y, Huang C, Zhang L. 2018. Impact of tectonism on pore type and pore structure evolution in organic-rich shale: Implications for gas storage and migration pathways in naturally deformed rocks. Fuel, 228: 272-289. （中科院一区TOP，SCI收录, ESI高被引）

(9) Zhu HJ, Ju YW, Huang C, Qi Y, Ju LT, Yu K, Li WY, Feng HY, Qiao P. 2019. Petrophysical properties of the major marine shales in the Upper Yangtze Block, South China: a function of structural deformation. Marine and Petroleum Geology, 110: 768-86. （中科院二区，SCI收录）

(10) Zhu H, Li S, Hu Z, Ju Y, Pan Y, Yang M, Lu Y, Wei M, Qian W (2023). Microstructural observations of clay-hosted pores in black shales: implications for porosity preservation and petrophysical variability. Clay Minerals 58, 310–323.（中科院三区，SCI收录）

(11) Lu Zeng, Hongjian Zhu, Yuexiang Hao, Erxiu Shi, Yanjun Lu, and Yu Qi.Microstructures and Pore Structures of Naturally Deformed Shales: Significance for Shale Gas Exploration in the Complex Tectonic Areas of the Margin of the Sichuan Basin, South China.Energy Fuels 2023, 37, 10414-10425（中科院三区，SCI收录）
(12) Chao Ma, Xianzheng Zhao, Zhixin Wen, Zhengjun He, Fengming Jin, Bincheng Guo, Ruiyin Chen,Jing Zheng, Guiru Yang, Xingyan Fan, and Hongjian Zhu.Multi-Scale and Multi-Dimensional Imaging of Mineral Matrix PoreFracture Networks in Lower-Thermal-Maturity Lacustrine Shale: Examples from the Paleogene Shahejie Formation, Bohai Bay Basin.Energy Fuels 2023, 37, 11125-11141（中科院三区，SCI收录）
(13)Changliang Wu, Hongjian Zhu, Yanjun Lu, Deng Zhao, Jun Chu, and Yu Qi.Comparative Evaluation of the Effects of Long-Term and Short-Term Water-Rock Interaction on the Microstructure and Mechanical Properties of Shale.Energy Fuels 2025, 39, 3540-3563（中科院三区，SCI收录）
(14)Liping Zhao and Hongjian Zhu.Experimental study on fractures quantitative characterization of shale during uniaxial compression. 2025. Front. Earth Sci. 13:1561760. doi: 10.3389/feart.2025.1561760（中科院四区，SCI收录）
(15)Yu Lin, Hongjian Zhu , Hongye Feng,Yiwen Ju,Yanjun Lu, Yanyan Pan, and Ci Song. Application of Raman Spectroscopy in Oil and Gas Geological Research. Journal of GeoEnergy. Volume 2025, Article ID 3984723.
(16) Manping Yang , Yanyan Pan , Hongye Feng, Qiang Yan , Yanjun Lu, Wanxin Wang , Yu Qi and Hongjian Zhu. Fractal Characteristics of Pore Structure of Longmaxi Shales with Different Burial Depths in Southern Sichuan and Its Geological Significance.Fractal Fract. 2025, 9, 2. https://doi.org/10.3390/ fractalfract9010002.

(17) Hongjian Zhu, Jian Gao, Manping Yang, Erxiu Shi, Yanjun Lu, Yu Qi, Mingbo Wei, and Wanxin Wang. A Comparative Study on the Microstructure and Petrophysical Properties of Undeformed and Naturally Deformed Shales. Energy Fuels 2023, 37, 1917-1928（中科院三区，SCI收录）

(18) Zhu HJ, Ju YW, Huang C, Qi Y, Ju LT, Yu K, Li WY, Su X, Feng HY, Qiao P. 2019. Tectonic and thermal controls on the nano-micro structural characteristic in a Cambrian organic-rich shale. Minerals, 9 (6), 354. （SCI收录）

(19) Zhu HJ, Ju YW, Lu WD, Han K, Qi Y, Neupane B, Sun Y, Cai JC, Xu TY, Huang C, Han YZ. 2017. The characteristics and evolution of micro-nano scale pores in shales and coals. Journal of Nanoscience and Nanotechnology, 17: 6124-6138. (SCI收录)

(20) 朱洪建，琚宜文，孙岩，黄骋，冯宏业，Ali Ｒaza，余坤，乔鹏，肖蕾. 构造变形作用下页岩孔裂隙结构演化特征及其模式———以四川盆地及其周缘下古生界海相页岩为例. 石油与天然气地质, 2021, 42 （1）: 187-200.(EI收录)

(21) 于淑艳，汪洋，冯宏业，朱洪建. 川东北城口地区筇竹寺组页岩流变对孔隙结构的影响. 新疆石油地质. 2022, 43 (5):513-518

(22) Jinxuan Han, Hongjian Zhu , Yanjun Lu, Su Yang, Manping Yang, Erxiu Shi and Yu Qi. Microstructural Analysis of Organic-Rich Shales: Insights from an Electron Microscopic Study by Application of FIBSEM and TEM. Nanomaterials 2022, 12, 4135. (SCI收录)

合作论文：

（1）Yanjun Lu, Jinxuan Han, Manping Yang, Xingyu Chen, Hongjian Zhu, Zhaozhong Yang. Molecular simulation of supercritical CO2 extracting organic matter from coal based on the technology of CO2-ECBM. Energy, 266, (2023), 126393（中科院一区TOP，SCI收录）

（2）Lu Y, Han J, Zhang H, Xu Z, Yang Z,Yang M, Guo J, Zhu H and Qi Y (2023), Study on coal seam physical characteristics and influence on stimulation: A case study of coal seams in zhengzhuang block. Front. Earth Sci. 10:1031419. （SCI收录）

(3) Qi Y, Ju YW, Tan JQ, Bowen L, Cai CF, Yu K, Zhu HJ, Huang C, Zhang WL. 2020. Organic matter provenance and depositional environment of marine-to-continental mudstones and coals in Eastern Ordos Basin, China-evidence from molecular geochemistry and petrology. International Journal of Coal Geology, 217: 103345. （中科院一区TOP，SCI收录）

(4) Yu K, Ju YW, Qi Y, Qiao P, Huang C, Zhu HJ, Feng HY. 2019. Fractal characteristics and heterogeneity of the nanopore structure of marine shale in Southern North China. Minerals, 9 (4): 242. (SCI收录)

(5) Qi Y, Ju YW, Jia TR, Zhu HJ, Cai JC. 2017. Nanoporous structure and gas occurrence of organic-rich shales. Journal of Nanoscience and Nanotechnology, 17 (9): 6942-50. (SCI收录)

(6) Qi Y, Ju YW, Huang C, Zhu HJ, Bao Y, Wu JG, Meng SZ, Chen WG. 2019. Influences of organic matter and kaolinite on pore structures of transitional organic-rich mudstone with an emphasis on S2 controlling specific surface area. Fuel, 237: 860-73. （中科院一区TOP，SCI收录）

(7) Qi Y, Ju YW, Cai JC, Gao Y, Zhu HJ, Hunag C, Wu JG, Meng SZ, Chen WG. 2019. The effects of solvent extraction on nanoporosity of marine-continental coal and mudstone. Fuel, 235: 72-84. （中科院一区TOP，SCI收录）

(8) Huang C, Xu TY, Ju YW, Zhu HJ, Ju LT, Li WY. 2019. Fracability evaluation of shale of the Wufeng-Longmaxi Formation in the Changning area, Sichuan Basin. Acta Geologica Sinica-English Edition, 93 (4): 996-1004. (SCI收录)

(9) Huang C, Ju YW, Xu TY, Sun Y, Jia TR, Neupane B, Han K, Qi Y, Zhu HJ, Cai JC. 2017. Full-scale and multi-method combined characterization of micro/nano pores in organic shale. Journal of Nanoscience and Nanotechnology, 17 (9): 6634-44. (SCI收录)

(10) Huang C, Ju YW, Zhu HJ, Qi Y, Yu K, Sun Y, Ju LT. 2019. Nano-scale pore structure and fractal dimension of Longmaxi Shale in the Upper Yangtze region, South China: A case study of the Laifeng–Xianfeng Block using HIM and N2 adsorption. Minerals, 9 (6): 356. (SCI收录)

(11) Ju YW, Huang C, Sun Y, Zou CN, He HP, Wan Q, Wang XQ, Lu XC, Lu SF, Wu JG, Chao HT, Liu HL, Qiu JS, Huang F, Zhu HJ, Cai JC, Sun Y. 2018. Nanogeology in China: A review. China Geology, 1 (2): 286-303.

(12) 琚宜文, 黄骋, 孙岩, 万泉, 刘海龄, 卢双舫, 何宏平, 吴建光, 蔡建超, 琚丽婷, 朱洪建. 纳米地球科学: 内涵与意义. 地球科学, 2018, 43 (05): 1367-1383. (EI收录)

(13) 琚宜文, 戚宇, 房立志, 朱洪建, 王国昌, 王桂梁. 中国页岩气的储层类型及其制约因素. 地球科学进展, 2016, 31 (08): 782-799.

(14) 徐添阳, 琚宜文, 黄骋, 戚宇, 朱洪建. 四川盆地南缘五峰-龙马溪组海相页岩压缩变形试验与破裂模式研究. 中国科学院大学学报, 2018, 35 (04): 561-568.

(15) Huang C , Ju YW , Zhu HJ , et al. Investigation of formation and evolution of organic matter pores in marine shale by helium ion microscope: An example from the lower silurian Longmaxi Shale, South China[J]. Marine and Petroleum Geology, 2020:104550. (SCI收录)

(16) Yu K , Ju YW , Qi Y , Huang C , Zhu HJ. Geological process of Late Paleozoic shale gas generation in the eastern Ordos Basin, China: Revelations from geochemistry and basin modeling[J]. International Journal of Coal Geology, 2020, 229:103569. （中科院一区TOP，SCI收录）

(17) Kun Yu, Yiwen Ju, Yanhui Yang, Peng Qiao, Wuyang Li, Liting Ju, Hongjian Zhu, Cheng Huang, and Hongye Feng. Effect of Composition on the Micropore Structure of Non-Marine Coal-Bearing Shale: A Case Study of Permian Strata in the Qinshui Basin, China. J. Nanosci. Nanotechnol. 21, 750–758 (2021) (SCI收录)

(18) Yan Sun, Yiwen Ju, Wei Zhou, Hongtai Chao, Zhicai Wang, Lei Wang, Hongjian Zhu, and Kui Han. Experimental Evidence and Characteristic Recognition of the Nanoweakening of Slip Deformation Zones. J. Nanosci. Nanotechnol. 21, 797–803 (2021) (SCI收录)

(19) Liting Ju, Pingxiao Wu, Yiwen Ju, Hongjian Zhu, Kun Yu, ShanShan Yang, and Meiqing Chen. Synthesis and Characterization of Montmorillonite Supported Zero-Valent Bimetallic Fe/Ni Nanoparticles for the Removal of Triclosan. J. Nanosci. Nanotechnol. 21, 804–811 (2021) (SCI收录)

(20) Hongye Feng, Yiwen Ju, Bo Chen, Weixuan Fang, Hongjian Zhu, Wuyang Li, Liting Ju, and Peng Qiao. Micro-Nanoscale Characteristics of Pyrite and Its Implications for Gold Mineralization: Two Cases of Gold Deposits in the Youjiang Basin and Southwestern Tianshan Mountains. J. Nanosci. Nanotechnol. 21, 246–261 (2021) (SCI收录)

(21) Peng Qiao, Yiwen Ju, Jianchao Cai, Jun Zhao, Hongjian Zhu, Kun Yu, Yu Qi, Shangzhi Meng, Wuyang Li, Ying Sun, Cheng Huang, and Hongye Feng. Micro-Nanopore Structure and Fractal Characteristics of Tight Sandstone Gas Reservoirs in the Eastern Ordos Basin, China. J. Nanosci. Nanotechnol. 21, 234–245 (2021) (SCI收录)

专利情况：

受权专利：

(1) 路艳军; 韩金轩; 杨满平; 马平华; 李光辉; 郑黎明; 朱洪建; 施而修. 一种全通径无限级压裂滑套, 2022-12-20, 中国, CN202110550827.X

(2) 杨满平; 魏铭伯; 王宇; 朱洪建; 张金. 一种覆压孔隙结构核磁共振测试装置及方法, 2025-08-08, 中国, ZL 2023 1 0503487.4

受理专利：

(1) 朱洪建; 琚宜文; 吴长亮. 一种页岩裂缝分布特征的自动化识别与量化方法, 2025-04-21, 中国.

(2) 朱洪建; 吴长亮; 路艳军; 郑黎明. 一种岩石损伤评价方法及装置, 2025-05-23, 中国.

(3) 郑黎明; 杨宸锐; 李思羽; 杨天娇; 朱洪建; 李旭; 李秉繁; 牛雅赛; 于健铭; 于佳宁;王云飞; 张子莹. 体积压裂持续变形缝网支撑剂运移实验模拟装置及方法, 2025-01-14, 中国.

(4) 吕嘉锟; 万志军; 马剑; 张源; 朱洪建; 余坤; 许炤斐. 一种基于水热型矿井立体化地热集采系统及其井位布置方法, 2024-11-15.

(5) 董金玉; 王探宇; 张兴胜; 石尚; 赵亚文; 刘时鹏; 周进; 朱洪建. 一种基于南水北调下穿既有河道输水隧洞模拟系统, 2024-12-06, 中国.