个人简介
2022年毕业于新西兰奥克兰大学,获得化学博士学位。同年12月加入十大靠谱网投平台。主要从事有机高分子材料的研究,包括新型高分子材料的设计、高刚性单体的合成和聚合反应研究、膜材料的制备以及在气体纯化、水处理、药物中间体分离等方面的应用研究。在相关领域(Journal of Organic Chemistry、Polymer、Journal of Membrane Science、Journal of Polymer Science、Journal of Environmental Chemical Engineering等)发表学术论文10余篇;主持1项天津市自然科学基金。
主讲课程
有机化学、药物合成反应
学术经历
2010.09-2014.06 辽宁大学制药工程专业学习,获学士学位
2014.09-2017.06 南开大学药物化学专业学习,获硕士学位
2017.11-2022.09 新西兰奥克兰大学化学专业学习,获博士学位
2022.12-至 今 十大靠谱网投平台 讲师
科研项目
1、天津市自然科学基金青年项目:兼具高刚性和扭转特征的梯形聚合物膜材料的合成及其气体分离性能研究(23JCQNJC00720),2023.10-2025.9,6万元,主持
代表性论文
1、Xiaoting Zhou, Haojun Tian, Honglei Ling*, Yulu Yang, Jiangzhou Luo, Xueping Zong, Song Xue*, Thermally rearranged OH-containing polyimide composite membranes with enhanced gas separation performance and physical aging resistance. Journal of Environmental Chemical Engineering 2024, 12, 112275.
2、Xiangyun Liu, Honglei Ling*, Jiangzhou Luo, Xueping Zong, Song Xue*, Tetramine-Based Hyperbranched Polyimide Membranes with Rigid Crosslinker for Improved Gas Permeability and Stability. Polymers 2023, 15, 3017.
3、Min Chen, Jiangzhou Luo*, Honglei Ling, Xueping Zong, Song Xue*, Fabrication of high-performance poly(benzoxazole-co-imide) membrane by utilizing synergistic effect of thermal rearrangement and Zn2+ modification. Journal of Membrane Science 2023, 688, 122127.
4、Honglei Ling, Duncan J. McGillivray, Jianyong Jin*, Locking the Spiro Carbon in Spirobisindane Using Sulfur and Phosphorus to Form “Olympic Ring”-like Molecules. The Journal of Organic Chemistry 2022, 87, 4649-4653.
5、Honglei Ling, Jianyong Jin*, Improved synthesis route and performance of azide modified polymers of intrinsic microporosity after thermal self-crosslinking. Polymer 2021, 230, 124094.
6、Ali Bagheri, Honglei Ling, Chris William Anderson Bainbridge, Jianyong Jin*, Living Polymer Networks Based on a RAFT Cross-Linker: Toward 3D and 4D Printing Applications. ACS Applied Polymer Materials 2021, 3 (6), 2921-2930.
7、Honglei Ling, Omid T. Qazvini, Shane G. Telfer*, Jianyong Jin*, Effective enhancement of selectivities and capacities for CO2 over CH4 and N2 of polymers of intrinsic microporosity via post-synthesis metalation. Journal of Polymer Science 2020, 58 (18), 2619-2624.8.