馬利建

1996-2000 四川大學化學工程學院套用化學專業讀本科；

2000-2002 中國科學院成都有機化學研究所工作；

2002-2005 四川大學化學學院有機化學專業讀碩士；

2005-2007 中國工程物理研究院核物理與化學研究所工作；

2007-2010 日本國立岡山大學機能分子化學專業讀博士；

2010-至今 四川大學化學學院從事教學科研工作。

主講課程：

《能源化學概論》、《天然藥物化學導論》（本科生）；《放射化學進展》（研究生）。

主要研究方向

新型共價有機框架材料（COFs）的設計合成與性能研究；

功能碳質材料的製備及在吸附分離領域的套用研究；

微波法在有機配體及新材料合成中的套用研究。

主要工作業績

近年來以第一或通訊作者在Chemistry of Materials、Nanoscale Horizons、Journal of Materials Chemistry A、Nanoscale、ACS Applied Materials & Interfaces和Chemical Communications等國際知名學術期刊上發表研究論文多篇。作為課題負責人先後承擔兩項國家自然科學基金面上項目，並承擔四川大學優秀青年學者基金、青年教師科研啟動基金等多個基金項目。

代表性成果 （獲獎成果、專著、論文、專利）

近年代表性研究論文：

1. Xinghua Guo§, Yin Tian§, Meicheng Zhang, Yang Li, Rui Wen, Xing Li, Xiaofeng Li, Ying Xue, Lijian Ma*, Chuanqin Xia*, Shoujian Li. Mechanistic insight into hydrogen-bond-controlled crystallinity and adsorption property of covalent organic frameworks from flexible building blocks. Chem. Mater. 2018, 30, 2299–2308.

2. Yang Li, Meicheng Zhang, Xinghua Guo, Rui Wen, Xing Li, Xiaofeng Li, Shoujian Li*, Lijian Ma*. Growth of high-quality covalent organic framework nanosheets at the interface of two miscible organic solvents. Nanoscale Horiz., 2018, 3, 205–212. (Front cover)

3. Lei Wang, Xinghua Guo, Kecheng Cao, Bo Li, Yang Li, Meicheng Zhang, Rui Wen, Xing Li, Shoujian Li*, Lijian Ma*. Effective charge-discriminated group separation of metal ions under highly acidic condition using nanodiamond-pillared graphene oxide membrane. J. Mater. Chem. A, 2017, 5, 8051–8061.

4. Yang Li, Lei Wang, Bo Li, Meicheng Zhang, Rui Wen, XinghuaGuo, Xing Li, Ji Zhang, Shoujian Li*, Lijian Ma*. Pore-free matrix with cooperative chelating of hyperbranched ligands for high-performance separation of uranium. ACS Appl. Mater. Interfaces, 2016, 8, 28853–28861.

5. Shuang Zhang, Xiaosheng Zhao, Bo Li, Chiyao Bai, Yang Li, Lei Wang, Rui Wen, Meicheng Zhang, Lijian Ma*, Shoujian Li*. “Stereoscopic” 2D super-microporous phosphazene-based covalent organic framework: design, synthesis and selective sorption towards uranium at high acidic condition. J. Hazard. Mater., 2016, 314, 95–104.

6. Bo Li, Chiyao Bai, Shuang Zhang, Xiaosheng Zhao, Yang Li, Lei Wang, Kuan Ding, Xi Shu, Shoujian Li*, Lijian Ma*. An adaptive supramolecular organic framework for highly efficient separation of uranium via an in situ induced fit mechanism. J. Mater. Chem. A, 2015, 3, 23788–23798.

7. Chiyao Bai, Meicheng Zhang, Bo Li, Yin Tian, Shuang Zhang, Xiaosheng Zhao, Yang Li, Lei Wang, Lijian Ma*, Shoujian Li*. Three novel triazine-based materials with different O/S/N set of donoratoms: One-step preparation and comparison of their capability inselective separation of uranium. J. Hazard. Mater., 2015, 300, 368–377.

8. Yin Tian, Jia Fu, Yi Zhang, Kecheng Cao, Chiyao Bai, Dongqi Wang, Shoujian Li,* Ying Xue,* Lijian Ma*, Chong Zheng*. Ligand-exchange mechanism: new insight into solid-phase extraction of uranium based on a combined experimental and theoretical study. Phys. Chem. Chem. Phys., 2015, 17, 7214–7223.

9. Juan Li, Xiaodan Yang, Chiyao Bai, Yin Tian, Bo Li, Shuang Zhang, Xiaoyu Yang, Songdong Ding, Chuanqin Xia, Xinyu Tan, Lijian Ma*, Shoujian Li*. A novel benzimidazole-functionalized 2-D COF material: Synthesis and application as a selective solid-phase extractant for separation of uranium. J. Colloid Interf. Sci., 2015, 437, 211–218.

10. Kecheng Cao, Yin Tian, Yongzhi Zhang, Xiaodan Yang, Chiyao Bai, Yue Luo, Xiaosheng Zhao, Lijian Ma*, Shoujian Li*. Strategy and mechanism for controlling the direction of defect evolution in graphene: preparation of high quality defect healed and hierarchically porous grapheme. Nanoscale, 2014, 6, 13518–13526.

11. Chiyao Bai, Juan Li, Songbai Liu, Xiaoyu Yang, Xiaodan Yang, Yin Tian, Kecheng Cao, Ying Huang, Lijian Ma*, Shoujian Li*. In situ preparation of nitrogen-rich and functional ultramicroporous carbonaceous COFs by "segregated" microwave irradiation. Micropor. Mesopor. Mat., 2014, 197, 148–155.

12. Xiaodan Yang, Juan Li, Jun Liu, Yin Tian, Bo Li, Kecheng Cao, Songbai Liu, Min Hou, Shoujian Li*, Lijian Ma*. Simple small molecule carbon source strategy for synthesis of functional hydrothermal carbon: preparation of highly efficient uranium selective solid phase extractant. J. Mater. Chem. A, 2014, 2, 1550–1559.