徐顺奇

环境科学与工程系研究员、博导

通讯方式:shunqi.xu@seu.edu.cn

研究方向:

共价有机框架聚合物(COFs)、光/电催化(碳捕集与转化)、传感(电化学/半导体)


办公地点:九龙湖校区能环大楼1307

 

 
个人简介 教学课程 科研、教改项目 论文&专著 专利申请 荣誉、奖励 指导学生
个人简介

  徐顺奇,东南大学能源与环境学院研究员,江苏特聘教授,玛丽居里学者2013年本科毕业于东南大学化学化工学院,2016年硕士毕业于中国科学院上海有机化学研究所,2020年博士毕业于德国德累斯顿工业大学(德国精英大学、TU9校联盟),此后相继在德累斯顿工业大学、德国马普所-微结构物理研究所、法国超分子科学与工程研究所 (合作导师:Paolo Samori 院士) 从事博士后研究。2024年回到东南大学任职。

  长期集中在二维高分子材料的制备及其性能与应用的研究:(1) 在材料制备方面,包括二维超分子聚合物、多级孔共价有机框架(COFs)、碳碳共轭的COFs等的制备;(2)在性能与应用研究方面,包括电池电极材料、光/电催化、固体发光、电荷传输、半导体器件等。
教学课程

本科生课程《能源与环境催化》,准备中

博士生课程《环境过程化学》
科研 教改项目

东南大学新进教师启动经费,2024-2027
论文 专著

入职后代表性论文(#共同一作, *通讯作者)

[1] Sun, H.-H.; Zhou, Z.-B.; Fu, Y.; Qi, Q.-Y.; Wang, Z.-X.; Xu, S.*; Zhao, X.* Azobenzene-bridged Covalent Organic Frameworks Boosting Photocatalytic Hydrogen Peroxide Production from Alkaline Water: One Atom Makes a Significant Improvement. Angew. Chem. Int. Ed.2024, e202409250.  https://onlinelibrary.wiley.com/doi/10.1002/anie.202409250

[2] Xu, Y.; Qiu, F.; Xu, S.-Q.*; Zhu, S.; Zhang, Y.; Liu, H.; Zong, P.; Ma, L.; Hong, K.*; Wang, Y.* Boosting photocatalytic hydrogen evolution by a light coupling and charge carrier confinement strategy. Adv. Funct. Mater. 2024, 2417553. https://onlinelibrary.wiley.com/doi/10.1002/adfm.202417553 


入职前代表性论文(#共同一作, *通讯作者)

[1] Liang, R.-R.#;Xu, S.#; Han, Z.; Yang, Y.; Wang, K.-Y.; Huang, Z.; Rushlow, J.; Cai, P.*; Samorì, P.*; Zhou, H.-C.* Exceptionally High Perfluorooctanoic Acid Uptake in Water by a Zirconium-Based Metal–Organic Framework through Synergistic Chemical and Physical Adsorption,J. Am. Chem. Soc., 2024, 146, 9811–9818.

[2] Liu, Y.#; Zhang, H.#; Yu, H. #; Liao, Z.; Paasch, S.; Xu, S.*; Zhao, R.; Brunner, E.; Bonn, M.; Wang, H*.; Heine, T.; Wang, M. *; Mai, Y.*; Feng, X.* A Thiophene Backbone Enables Two-Dimensional Poly(arylene vinylene)s with High Charge Carrier Mobility. Angew. Chem. Int. Ed.2023, 62, e202305978.

[3] Li, S.#; Geng, Y.#; Teng, B.*; Petkov, P. S.; Liao, Z.; Jost, B.; Liu, Y.; Feng, X.; Wu, B.*; Xu, S.*; Zhang, T.* Nature-Inspired Pyrylium Cation Based Vinylene-linked Two-Dimensional Covalent Organic Framework for Efficient Sunlight-driven Water Purification. Chem. Mater.2023, 35, 1594–1600.

[4] Li, S.#; Ma, R.#; Xu, S.#; Zheng, T.; Wang, H.; Fu, G.; Yang, H.; Hou, Y.; Liao, Z.; Wu, B.; Feng, X.; Wu, L.-Z.; Li, X.-B.*; Zhang, T.* Two-Dimensional Benzobisthiazole-Vinylene-Linked Covalent Organic Frameworks Outperform One-Dimensional Counterparts in Photocatalysis. ACS. Catal. 2023, 13, 1089–1096.

[5] Li, S.#; Ma, R.#;Xu, S.*; Zheng, T.; Fu, G.; Wu, Y.; Liao, Z.; Kuang, Y.; Hou, Y.; Wang, D.; Petkov, P. S.; Simeonova, K.; Feng, X.; Wu, L.-Z.; Li, X.-B.*; Zhang, T.* Direct Construction of Isomeric Benzobisoxazole–Vinylene-Linked Covalent Organic Frameworks with Distinct Photocatalytic Properties. J. Am. Chem. Soc.2022, 144, 13953–13960.

[6] Xu, S.; Liao, Z.; Dianat, A.; Park, S.; M. Addicoat, A.; Fu, Y.; Pastoetter, D. L.; Fabozzi, F. G.; Liu, Y.; Cuniberti, G.; Richter, M.; Hecht, S.; Feng, X.*Combination of Knoevenagel Polycondensation and Water-Assisted Dynamic Michael-Addition-Elimination for the Synthesis of Vinylene-Linked 2D Covalent Organic Frameworks. Angew. Chem. Int. Ed.2022,61, e202202492

[7] Xu, S.; Richter, M.; Feng X.* Vinylene-Linked Two-dimensional Covalent Organic Framework:Synthesis and Functions. Acc. Mater. Res. 2021, 2, 252–265.

[8] Xu, S.#; Sun, H.#; Addicoat, M.; Biswal, B. P.; He, F.; Paasch, S.; Zhang, T.; Sheng, W.; Brunner, E.; Hou, Y.; Richter, M.; Feng, X.* Thiophene-Bridged Donor-Acceptor sp2-Carbon-Linked 2D Conjugated Polymers as Photocathodes for Water Reduction. Adv. Mater. 2021, 33,202006274.

[9]Zhang, T.#; Xu, S.#; Hou, Y.#; Olianas, D.; Milani, A.; Liao, Z.; Zhang, Z.; Sun, H.; Mannsfeld, S.; Zschech, E.; Tommasini, M.; Feng, X.* Solvent-Mediated Engineering Copper-Metalated Acetylenic Polymer Scaffolds for Enhanced Photoelectrochemical Performance. J. Mater. Chem. A,2021, 9, 9729-9734.

[10] Xu, S.#; Li, Y.#; Biswal, B. P; Addicoat, M. A; Paasch, S.; Imbrasas, P.; Park, S.; Shi, H.; Brunner, E.; Richter, M.; Lenk, S.; Reineke, S.*; Feng, X.* Luminescent sp2-Carbon-Linked 2D Conjugated Polymers with High Photostability. Chem. Mater. 2020, 32, 7985–7991.

[11] Xu, S.#; Wang, G.#; Biswal, B. P; Addicoat, M.; Paasch, S.; Sheng, W.; Zhuang, X.; Brunner, E.; Heine, T.; Berger, R.*; Feng, X.* A Nitrogen-Rich 2D sp2 -Carbon-Linked Conjugated Polymer Framework as a High-Performance Cathode for Lithium-Ion Batteries. Angew. Chem. Int. Ed.2019, 58, 849-853. (VIP)

[12] Liang, R.-R.#; Xu, S.#; Zhang, L.#; A, R.-H.; Chen, P.; Cui, F.-Z.; Qi, Q.-Y.; Sun, J.*; Zhao, X.* Rational Design of Crystalline Two-dimensional Frameworks with Highly Complicated Topological Structures. Nat. Commun.2019, 10, 4609.

[13] Xu, S.#; Liang, R.-R.#; Zhan, T.-G.; Qi, Q.-Y.; Zhao, X.* Construction of 2D Covalent Organic Frameworks by Taking Advantage of The Variable Orientation of Imine Bonds.Chem. Commun.,2017, 53, 2431-2434.

[14] Xu, S.#; Zhan, T.-G.#; Wen, Q.; Pang, Z.-F.; Zhao, X.* Diversity of Covalent Organic Frameworks (COFs): A 2D COF Containing Two Kinds of Triangular Micropores of Different Sizes. ACS Macro Lett.2016, 5, 99–102. 

[15]Qian, C.#; Xu, S.#; Jiang, G.-F.; Zhan, T.-G.; Zhao, X.* Precision Construction of 2D Heteropore Covalent Organic Frameworks by a Multiple-Linking-Site Strategy.Chem. Eur. J.2016, 22, 17784 –17789.

[16] Xu, S.; Zhang, X.; Nie, C.-B.; Pang, Z.-F.; Xu, X.-N.; Zhao, X.* The construction of a two-dimensional supramolecular organic framework with parallelogram pores and stepwise fluorescence enhancement.Chem Commun., 2015, 51, 16417-20. 
专利申请
荣誉 奖励

江苏特聘教授

欧盟 玛丽居里奖学金

国家优秀自费留学生奖学金

国家励志奖学金
指导学生

邱帆(博士生,共同指导)

正在招生中,欢迎感兴趣的博后、博士、硕士生加入……