李立清

个人信息Personal Information

教授

博士生导师

硕士生导师

教师英文名称：Liqing Li

教师拼音名称：liliqing

电子邮箱：

所在单位：能源科学与工程学院

学历：博士研究生毕业

办公地点：中南大学校本部能源楼316

联系方式：Tel: 0731-88879863 Email：liqingli@hotmail.com; liqingli@csu.edu.cn

学位：博士学位

论文成果

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Jingxu Tian, Xiang Xu*, Zheng Zeng*, Liqing Li*, Junying Li, Hongyu Chen, Peng He, Yunfeng Zhang, Peixin Wang, Da Wei, Wenji Pi, Jun Ma, Yue Sun, Jiehui Wang, Gao Shu, Bingshen Liu, Yong Liu.Synergistic pore affinity engineering in tobacco stem-derived carbon via magnesium citrate dual activation for high hydrogen storage.Carbon, 2026, 256: 121633.
Pengcheng Guo, Fan Deng, Yang Guo, Hongyu Chen, Changqing Su, Zheng Zeng, Liqing Li, Xiancheng Ma.Machine learning and molecular simulation insights into light hydrocarbon storage and separation on porous carbons: effects of pore structure and N/O functionalities.Separation and Purification Technology, 2026, 395 (Part 2) : 137747.
Lin Huang, Xiancheng Ma*, Yanyan Hu, Yishu Wu, Ruiqi Xue, Zhibo Jia, iayong Si, Rongkui Su, Zheng Zeng, Liqing Li, Yiqiang Wu.Microwave pyrolysis of biomass-derived porous carbons in air: advanced oxidation boosts CO2 capture.Chemical Engineering Science, 2026, 325: 123408.
Pengcheng Guo, Xiancheng Ma*, Yang Guo, Hongyu Chen, Changqing Su, Zheng Zeng, Liqing Li.Molecular simulation-guided precision design of biomass-based porous carbons with tailored ultramicropores for superior VOCs adsorption from flue gas.Journal of Environmental Chemical Engineering, 2026, 14 (2) : 121417.
Fan Deng, Xiancheng Ma*, Shun Zhang, Haiqin Cao, Qiao Zou, Fulei Zhu, Rongkui Su, Zheng Zeng, Liqing Li, Yiqiang Wu.Unraveling CO2 capture mechanisms in porous carbons across different pressure ranges: A synergistic approach combining machine learning and molecular simulation.Separation and Purification Technology, 2026, 383: 136176.
Jingxu Tian, Xiang Xu*, Zheng Zeng*, Shaobin Wang*, Liqing Li*, Peixin Wang, Zhanpeng Deng, Da Wei, Hongyu Chen, Changkai Zhou, Wenji Pi, Peng He, Yong Liu, Bo Liu, Jiehui Wang, Likun Wang.Synergistic Dual Heteroatom-Engineered Superactivated Carbon Unlocks Record-High Hydrogen Storage via Mg─F Orbital Hybridization.Advanced Materials, 2025, 38 (5) : e09511.
Jiehui Wang, Xiang Xu*, Zheng Zeng*, Liqing Li*, Da Wei, Peixin Wang, Jingxu Tian, Hongyu Chen, Wenji Pi, Hanbin Du, Jun Ma, Yue Sun.Tuning graphitic domains in porous carbon for enhanced competitive adsorption of benzene over acetone: the critical role of graphitization in separation selectivity.Separation and Purification Technology, 2025, 380 (Part3) : 135208.
Da Wei, Xiang Xu*, Zheng Zeng*, Liqing Li*, Hongyu Chen, Peng He, Bin Wei,, Jingxu Tian, Wenji Pi, Peixin Wang, Jiehui Wang, Ratchadaporn Kueasook.Sulfhydryl-Mediated Thermal Stabilization of Nitrogen Adsorption Sites in Aromatic Heterocyclic Waste-Derived Activated Carbon for Enhanced CO2 Capture.Advanced Functional Materials, 2025, 36 (14) : e22953.
Rui Shi, Liqing Li*, Shuyu Wang, Jianyu Kou, Musen Qiao, Yun Li.Porous Carbon Nanofibers with Sulfur and Oxygen Composite Surfaces Derived from Ultrafine Polypropylene Fibers in Waste Masks for CO2 Adsorption.Langmuir, 2025, 41 (37) : 25524–25534.
Pengcheng Guo, Xiancheng Ma*, Changqing Su*, Liqing Li*, Ruiqi Xue, Qiao Zou, Zheng Zeng.Enhanced Ultramicropore of Biomass-Derived Porous Carbon for Efficient and Low-Energy CO2 Capture: Integration of Adsorption and Solar Desorption.Energy & Environmental Materials, 2025: e70140.
Xiang Xu, Jingxu Tian, Zheng Zeng*, Liqing Li*, Zijie Sun, Kueasook Ratchadaporn, Peng He.Ru-containing high-entropy alloys catalysts for optimal oxygen evolution via multimetallic electronic synergy engineering.Applied Surface Science, 2025, 715: 164502.
Ratchadaporn Kueasook, Zheng Zeng*, Xiang Xu*, Liqing Li*, The effect of the activating agent on the textural and chemical properties of ultra-microporous carbon materials on CO2 adsorption.Materials Letters, 2025, 403: 139413.
Pengcheng Guo, Xiancheng Ma*, Changqing Su*, Ruofei Chen, Zheng Zeng, Liqing Li, Shaobin Wang.Adsorption and Separation Mechanism of Methanol–Toluene Azeotropes on Porous Carbon Materials: Insights from Theoretical and Experimental Studies.Langmuir, 2025, 41 (28) : 18653-18663.
Pengcheng Guo, Xiancheng Ma*, Ruofei Chen*, Changqing Su*, Yi Wu, Zheng Zeng, Liqing Li, Shaobin Wang.Enhanced iodine capture by nano-copper particles modified benzimidazole-based molded porous carbon.Applied Surface Science, 2025 (708) : 163754.
Changkai Zhou, Xiang Xu*, Zheng Zeng*, Liqing Li*, Hongyu Chen, Yang Guo, Jingxu Tian, Changqing Su, Ke Zhou.The optimization of hierarchical porous carbon in temperature swing adsorption for benzene: Experimental and theoretical perspective.Chemical Engineering Journal, 2025
Ruiqi Xue, Xiancheng Ma*, Liqing Li*, Jiayong Si*, Wenjun Xu, Zheng Zeng, Yang Guo.Targeted enhancement of ultra-micropore in highly oxygen-doped carbon derived from biomass for efficient CO2 capture: Insights from experimental and molecular simulation studies,.Separation and Purification Technology, 2025 (353, Part A) : 128472.
Pengcheng Guo, Xiancheng Ma*, Ruofei Chen*, Changqing Su*, Yi Wu, Zheng Zeng, Liqing Li, Shaobin Wang.Enhanced iodine capture by nano-copper particles modified benzimidazole-based molded porous carbon.Applied Surface Science, 2025 (708) : 163754.
Bo Liu, Xiang Xu*, Zheng Zeng*, Liqing Li*, Jingxu Tian, Peixin Wang, Zhanpeng Deng.Mechanistic insights into alkali metal migration and slagging behavior in K-type biomass ash during thermal conversion.Energy, 2025, 329: 136800.
Ratchadaporn Kueasook, Zheng Zeng*, Xiang Xu*, Liqing Li*, Peixin Wang, Hongyu Chen, Peng He.Solvent-free one-step simple synthesis of N, O-doped microporous carbon using K2CO3 as an activation agent and their application to CO2 capture: Synergistic effect of pore structure and nitrogen–oxygen functional groups.Chemical Engineering Science, 2025, 311: 121615.
Changkai Zhou, Xiang Xu*, Zheng Zeng*, Liqing Li*, Anjun Ma, Changqing Su, Weiwu Ma.The construction of ultrahigh efficiency benzene molecular transport channel and application on pressure swing adsorption.Applied Surface Science, 2025, 688: 162322.

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