姓名:李良军 | 出生年月:1982.9 | 导师类别:硕导 |
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职称:副教授 | 政治面貌:中共党员 | 邮箱:lilj@upc.edu.cn | |
研究方向:氢能,包括氢气的制备、氢气纯化、新型储氢材料的开发、氢燃料电池催化剂的开发 | 办公地点:工科楼D座224室 | 联系电话:15053298390 | |
地址/邮编:山东省青岛市黄岛区长江西路66号/2665580 | |||
1.教育经历 ① 2000/09~ 2004/06,昆明理工大学,化学工程与工艺专业,本科; ② 2004/09~ 2007/06,昆明理工大学,化学工程专业,硕士; ③ 2010/09~ 2014/01,中国科学院大学,化学工程专业,博士。 2.工作经历 ① 2007/09至2010/09,河南利华制药有限公司,研发部,研发工程师; ② 2014/04至2017/12,中国石油大学(华东),非常规油气与新能源研究院,讲师; ③ 2019/07至今,中国石油大学(华东),新能源学院,副教授。 3.研究领域/招生方向 ① 电解水制氢 ② 氢气分离与纯化 ③ 新型储氢材料的开发 ④ 新型气体分离材料与技术 4.主讲课程 《氢燃料电池》、《氢能技术与应用》、《储氢技术与材料》 5.主持项目 作为项目负责人主持的国家自然科学基金、山东省重点研发项目、校级科研课题、中石油科学技术研究院合作项目、山东能源集团合作项目,作为重要参与人参与山东省重大科技创新工程。 [1] 国家自然基金项目(青年):N2端基配合物在MOF分子反应器中的原位组装及高效甲烷/氮气分离研究,2015 - 2017,负责人。 [2] 山东省重点研发计划(公益类),以氢/氘量子筛分离为导向的金属-有机框架材料的开发及氢/氘分离研究,2018-2019,负责人。 [3] 山东省自然科学基金(面上):基于 MOF 的仿生分级超结构的构筑及气体分离性能的研究,2021-2024,2022-2024,负责人。 [4] 校自主创新项目,基于超微孔穴金属-有机框架化合物分子识别效应的稀有气体分离研究,2015-2016,负责人。 [5] 校自主创新项目,晶态MOF-COF杂化框架材料的自组装与气体吸附性质研究,2018-2020,负责人。 [6] 中石油科学技术研究院合作项目,基于“开关效应”的金属-有机框架储氢材料的开发,2019-2020,负责人。 [7] 山东能源集团合作项目,IMOF氢气纯化技术研究,2020-2023,负责人。 [8] 山东省重大科技创新工程项目,氢能技术-工业副产氢利用与纯化技术研究与应用,2020-2023,重要参与人。 6.论著与专利 (1)发表论文 [1] Wenli Xu, Li Liangjun*, Guo Mengwei, Zhang Fuzhao, Dai Pengcheng, Gu Xin, Liu Dandan, Liu Tao, Zhang Kuitong, Xing Tao, Wang Muzhou, Li Zhi, Wu Mingbo*. Fabrication of Pillar-Cage Fluorinated Anion Pillared Metal–Organic Frameworks via a Pillar Embedding Strategy and Efficient Separation of SO2 through Multi-Site Trapping [J]. Angewandte Chemie International Edition, 2023, 62(46): e202312029. [2] Shaochen Cao, Li Liangjun*, Guo Mengwei, Xu Wenli, Liu Tao, Xing Tao, Li Zhi, Wang Mingqing, Wang Muzhou, Wu Mingbo*. Construction of Sunflower-like Superstructure of CHA Zeolite through Oriented Attachment for Superior CO2 Separation Performance via Thermodynamic–Kinetic Synergistic Adsorption [J]. Chemistry of Materials, 2023, 35(23): 10119-10128. [3] Liangjun Li*, Liu Dandan, Zhen Dewen, Ge Zhixing, Zhang Xi, Xiong Bo, Li Zhi, Zhang Kuitong, Xing Tao, Xu Wenli, Zhang Fuzhao, Gu Xin, Dai Pengcheng, Zhao Xuebo*. Thermodynamic–Kinetic Synergistic Separation for O2/N2 and CO2/CH4 on Nanoporous Carbon Molecular Sieves [J]. ACS Applied Nano Materials, 2022, 5(8): 11414-11422. [4] Xiaoxia Lv, Xue Xue, Gan Xingyu, Lv Chenhao, Sun Xiaochen, Wang Yun, Li Liangjun*, Wang Hua*. Bottom-Up Fabrication of a Sandwich-Like Carbon/Graphene Heterostructure with Built-In FeNC Dopants as Non-Noble Electrocatalyst for Oxygen Reduction Reaction [J]. Chemistry - A Asian Journal, 2020, 15(3): 432-439. [5] Liangjun Li*, He Jiangxiu, Xu Wenli, Zhang Kuitong, Xing Tao, Li Zhi, Zhen Dewen, Xiong Bo, Ge Zhixing, Zhang Xi, Wang Shanyu, Zhang Fuzhao, Gu Xin, Dai Pengcheng, Liu Dandan, Yang Lingzhi, Zhao Xuebo. High CO2 separation performance on a metal–organic framework composed of nano-cages lined with an ultra-high density of dual-side open metal sites [J]. Materials Advances, 2022, 3(1): 493-497. [6] Wenli Xu, Yang Limeng, Li Liangjun*, Shao Junwei, Liu Tao, Xing Tao, Wang Muzhou, Li Zhi, Wu Mingbo*. Post-synthetic Chemical Fixation of Fe2+ in MOF to Prepare Fe2N-Embedded N-Doped Graphene Nanoribbons for Superior Oxygen Reduction Reaction [J]. Chemistry – An Asian Journal, 2023, 18(7): e202300016. [7] Lingzhi Yang, Yan Liting, Wang Ying, Liu Zhi, He Jiangxiu, Fu Qiuju, Liu Dandan, Gu Xin, Dai Pengcheng, Li Liangjun, Zhao Xuebo*. Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide [J]. Angewandte Chemie International Edition, 2021, 60(9): 4570-4574. [8] Lei Cao, Dai Pengcheng*, Tang Jing, Li Dong, Chen Ruihua, Liu Dandan, Gu Xin, Li Liangjun, Bando Yoshio*, Ok Yong Sik, Zhao Xuebo*, Yamauchi Yusuke. Spherical Superstructure of Boron Nitride Nanosheets Derived from Boron-Containing Metal–Organic Frameworks [J]. Journal of the American Chemical Society, 2020, 142(19): 8755-8762. [9] Han Ye, Liangjun Li,* Dandan Liu, Fuzhao Zhang, Pengcheng Dai, Xin Gu, Xuebo Zhao.* Sustained-Release Method for the Directed Synthesis of ZIF-Derived Ultrafine Co-N-C ORR Catalysts with Embedded Co Quantum Dots.ACS Applied Materials & Interfaces, 2020, 12: 57847-57858 [10] Ying Wang, Liangjun Li,* Huimin Liang, Yanlong Xing, Pengcheng Dai, Xin Gu, Guoming Zhao, Xuebo Zhao.* Superstructure of a Metal-Organic Framework Derived from Microdroplet Flow Reaction: An Intermediate State of Crystallization by Particle Attachment. ACS Nano, 2019, 13(3): 2901-2912. [11] Liangjun Li, Jiangxiu He, Ying Wang, Xiaoxia Lv, Xin Gu, Pengcheng Dai, Dandan Liu, Xuebo Zhao*. Metal-organic frameworks: a promising platform of constructing non-noble electrocatalysts for oxygen-reduction reaction. Journal of Materials Chemistry A, 2019, 7(5): 1964-1988. (ESI高被引论文). [12] Dandan Liu, Liangjun Li,* Huanfei Xu, Pengcheng Dai, Ying Wang, Xing Gu, Liting Yan, Guoming Zhao, Xuebo Zhao.* Boosting ORR Catalytic Activity by Integrating Pyridine‐N Dopants, a High Degree of Graphitization, and Hierarchical Pores into a MOF‐Derived N‐Doped Carbon in a Tandem Synthesis. Chemistry – An Asian Journal, 2018, 13 (10), 1318-1326. [13] Ying Wang, Liangjun Li, Liting Yan, Xin Gu, Pengcheng Dai, Dandan Liu, Jon G Bell, Guoming Zhao, Xuebo Zhao,* K Mark Thomas.* Bottom-up Fabrication of Ultrathin 2D Zr Metal-Organic Framework Nanosheets through a Facile Continuous Microdroplet Flow Reaction. Chemistry of Materials, 2018, 30 (9), 3048-3059. [14] Ying Wang,1Liangjun Li,1 Liting Yan, Lei Cao, Pengcheng Dai, Xin Gu, Xuebo Zhao.* Continuous synthesis for zirconium metal-organic frameworks with high quality and productivity via microdroplet flow reaction. Chinese Chemical Letters, 2018, 29(6), 849-853. [15] Liangjun Li, Pengcheng Dai, Xin Gu, Ying Wang, Liting Yan, Xuebo Zhao.* High oxygen reduction activity on a metal–organic framework derived carbon combined with high degree of graphitization and pyridinic-N dopants. Journal of Materials Chemistry A, 2017, 5 (2), 789-795 (ESI高被引论文). [16] Ying Wang, Liangjun Li, Pengcheng Dai, Liting Yan, Lei Cao, Xin Gu, Xuebo Zhao.* Missing-node directed synthesis of hierarchical pores on a zirconium metal–organic framework with tunable porosity and enhanced surface acidity via a microdroplet flow reaction. Journal of Materials Chemistry A, 2017, 5 (42), 22372-22379. [17] Qipeng Yang, Liangjun Li, Weiqiang Tan, Yingjie Sun, Huanli Wang, Jiping Ma, Xuebo Zhao.* Exceptional high selectivity of hydrogen/methane separation on a phosphonate-based MOF membrane with exclusion of methane molecules. Chemical Communications, 2017, 53(70), 9797-9800. [18] Liangjun Li, Ying Wang, Xin Gu, Qipeng Yang, Xuebo Zhao.* Increasing the CO2/N2 Selectivity with a Higher Surface Density of Pyridinic Lewis Basic Sites in Porous Carbon Derived from a Pyridyl‐Ligand‐Based Metal–Organic Framework. Chemistry – An Asian Journal, 2016, 11 (13), 1913-1920. [19] Xin Gu, Liangjun Li, Ying Wang, Pengcheng Dai, Hongbo Wang, Xuebo Zhao.* Hierarchical tubular structures constructed from rutile TiO2 nanorods with superior sodium storage properties.Electrochimica Acta, 2016, 211, 77-82. [20] Liangjun Li, Haitao Xue, Ying Wang, Pinhui Zhao, Dandan Zhu, Min Jiang, Xuebo Zhao.* Solvothermal Metal Metathesis on a Metal–Organic Framework with Constricted Pores and the Study of Gas Separation. ACS applied materials & interfaces, 2015, 7(45), 25402-25412. [21] Qian Mu, Haiyan Wang,* Liangjun Li,* Chao Wang, Ying Wang, Xuebo Zhao.* Enhanced CO2 Adsorption Affinity in a NbO‐type MOF Constructed from a Low‐Cost Diisophthalate Ligand with a Piperazine‐Ring Bridge. Chemistry–An Asian Journal, 2015, 10(9), 1864-1869. [22] Chao Wang, Liangjun Li, Jon Bell, Xiaoxia Lv, Sifu Tang, Xuebo Zhao,* K. Mark. Thomas,* Hysteretic Gas and Vapor Sorption in Flexible Interpenetrated Lanthanide-Based Metal–Organic Frameworks with Coordinated Molecular Gating via Reversible Single-Crystal-to-Single-Crystal Transformation for Enhanced Selectivity. Chemistry of Materials, 2015, 27 (5), 1502-1516. [23] Liangjun Li, Jon G Bell, Si-Fu Tang, Xiaoxia Lv, Chao Wang, Yan-long Xing, Xuebo Zhao,* Keith Mark Thomas.* Gas Storage and Diffusion through Nano-Cages and Windows in Porous Metal Organic Framework Cu2(2, 3, 5, 6-tetramethylbenzene-1, 4-diisophthalate)(H2O)2. Chemistry of Materials, 2014, 26(16), 4679-4695. [24] Liangjun Li, Sifu Tang, Chao Wang, Xiaoxia Lv, Min Jiang, Huaizhi Wu, Xuebo Zhao.* High gas storage capacities and stepwise adsorption in a UiO type metal–organic framework incorporating Lewis basic bipyridyl sites. Chemical Communications, 50, 2304-2307. (ESI高被引论文). [25] Min Jiang,1Liangjun Li,1 Dan dan Zhu, Hong yu Zhang, Xuebo Zhao.* Oxygen Reduction in the Nanocage of Metal-Organic Frameworks with An Electron Transfer Mediator. Journal of Materials Chemistry A, 2014, 2(25), 5323-5329 (The first Co-author). [26] Xiaoxia Lv, Liangjun Li,* Sifu Tang, Chao Wang, Xuebo Zhao.* High CO2/N2 and CO2/CH4 selectivity in a chiral metal–organic framework with contracted pores and multiple functionalities. Chemical Communications, 2014, 50(52), 6886-6889. [27] Dandan Zhu, Liangjun Li, Jinjun Cai, Min Jiang, Jingbo Qi, Xuebo Zhao.* Nitrogen-doped Porous Carbons from Bipyridine-Based Metal-Organic Frameworks: Electrocatalysis for Oxygen Reduction Reaction and Pt-catalyst Support for Methanol Electrooxidation. Carbon, 2014, 79, 544-553. [28] Chao Wang, Liangjun Li, Si-Fu Tang, Xuebo Zhao.* Enhanced uptake and selectivity of CO2 adsorption in a hydrostable metal-organic frameworks via incorporating methylol and methyl groups. ACS applied materials & interfaces, 2014, 6(19), 16932–16940. [29] Liangjun Li, Sifu Tang, Xiaoxia Lv, Min Jiang, Chao Wang, Xuebo Zhao.* An rht type metal–organic framework based on small cubicuboctahedron supermolecular building blocks and its gas adsorption properties, New Journal of Chemistry, 37(11), 3662-3670. [30] Liangjun Li, Sifu Tang, Xiaoxia Lv, Jinjun Cai, Chao Wang, Xuebo Zhao.* A Series of Exceptionally Robust Luminescent Coordination Polymers Based on a Bipyridyldicarboxylate Ligand and Rare‐Earth‐Metal Ions. European Journal of Inorganic Chemistry, 2013, 36, 6111-6118. [31] Jinjun Cai, Liangjun Li, Xiaoxia Lv, Chunpeng Yang, Xuebo Zhao.* Large Surface Area Ordered Porous Carbons via Nanocasting Zeolite 10X and High Performance for Hydrogen Storage Application. ACS applied materials & interfaces, 2013, 6(1), 167-175. [32] 李良军,赵学波,金属-有机框架化合物:一种新兴的能源气体存储材料,《沈阳化工大学学报》,2017,31(3)。 (2)专利 [1] 发明专利:一种多级孔金属-有机框架气相色谱固定相材料的制备方法,李良军,何江秀,顾鑫,代鹏程,曹磊,刘丹丹,赵学波,CN201911171189. X。 [2] 发明专利:一种有机胺阳离子修饰的金属-有机框架材料及其制备方法,李良军,赵学波,张冬冬,邢涛,顾鑫,李冰,代鹏程,张奎同,张付昭,韩嘉,202110969242.1。 [3] 发明专利:一种金属有机框架材料及其制备方法和应用,李良军; 许文莉; 张奎同,邢涛,张付昭,顾鑫,朱广东,代鹏程,王荟钦,刘丹丹,ZL202211682676.4。 [4] 发明专利:一种金属-有机框架材料及其制备方法,李良军,吴明铂,陈爱忠,邢涛,王阳,张奎同,许文莉,李智,韩嘉,王洪记,刘海燕,史之印, ZL202111299689.9。 [5] 发明专利:超细M-N-C非贵金属碳基氧还原催化剂、制备方法及应用,李良军,叶涵,刘丹丹,顾鑫,代鹏程,赵学波,CN202010863309.9。 [6] 发明专利:一种碳分子筛的制备方法,李良军,赵学波,代鹏程,顾鑫,201610811370.2。 [7] 发明专利:一种过渡金属修饰的氧化还原催化剂及其制备方法,赵学波,李良军,代鹏程,顾鑫,刘丹丹,CN201711097805.2。 [8] 发明专利:一种过渡金属修饰的氧化还原催化剂及其制备方法,赵学波,李良军,代鹏程,顾鑫,刘丹丹,201711097805.2。 (3)学术报告 [1] 李良军,2023.5.23-26,2023世界氢能技术大会,地点:佛山。邀请报告,报告题目:工业副产氢纯化及高值化利用。 [2] 李良军,2023.9.15-17,2023年光学、显示与新能源国际会议,地点:青岛。邀请报告,报告题目:基于晶体生长动力学的多孔材料介观结构调控及气体分离性质研究。 [3] 李良军,2016.7.1-4,中国化学会第30届学术年会,地点:大连,报告题目:气体分子在MOFs纳米孔道内的吸附动力学的研究。 [4] 李良军,2017.7.19-22,中国化学会第8届配位化学会议,地点:大连,报告题目:“金属-有机框架化合物孔内配合物的构建及气体吸附性质研究”。 [5] 李良军,2021.4.19-2021.4.22,中国化学会第32届学术年会,地点:珠海,报告题目:“基于晶体生长动力学的MOF介观结构调控及性质研究”。 [6] 李良军,2016.3.23-25,韩国仁川,2nd International Smart Materials & Surfaces Conference,报告主题:Gas Sorption Kinetics in the Confined Space of Nano-Pores of Metal-Organic Frameworks。 7.获奖荣誉 [1]青岛市西海岸新区紧缺人才,位次1,2015。 8.学术兼职 [1]《当代化工研究》期刊编委。 [2]《Journal of the American Chemical Society》、《ACS Nano》、《Journal of Materials Chemistry A》、《Chemical Communications》、《ACS Applied Materials & Interfaces》等期刊的审稿专家。 | |||
