于胜胜

姓名

于胜胜

出生年月

1991年3月

政治面貌

中共党员

民族

汉族

职称

讲师

学历

博士研究生

学位

博士

联系方式

776228077(QQ)

电子邮箱

ssyu@sdut.edu.cn

主要学习（工作）经历

2009.09—2013.06，延边大学，应用化学专业，学士

2013.09—2014.06，延边大学，化学专业，硕士 导师：金龙一 教授、陈铁 教授

2016.09—2019.06，延边大学，有机化学专业，博士，导师：金龙一 教授

2019.11—至今，山东理工大学化学化工学院，讲师

主要研究方向

主要从事基于非共价相互作用的人工光捕获体系（LHSs）、氢键有机框架（HOFs）超分子有机框架（SOFs）的构筑及其光催化研究。

主讲课程

本科生课程：《有机化学》、《精细有机合成》、《精细化学品分离与分析》

研究生课程：《超分子化学与自组装》

荣誉奖励

1. 中国化学会第五届全国光功能材料青年学者研讨会 优秀口头报告奖（2026年）

2. 吉林省自然科学，三等奖 两亲刚柔分子的合成、自组装及其聚集体作为纳米反应器的研究,金龙一; 崔俊杰; 杨云天; 于胜胜（2024年）

3. 博士研究生国家奖学金（2018年）

4. 硕士研究生国家奖学金（2015年）

科研项目

1. 基于刚棒-线团温度响应型超分子发光聚集体的构筑及其人工光捕获应用研究, 山东省自然科学基金青年项目

2. 2,6-二甲基-β-环糊精小试工艺实质开发，横向课题

论著专利

1. Sun, G.-Q.; Zhu, R.-X.; Dong, R.-Z.; Liu, H.; Yang, Y.;* Yu, S.;* Xing, L.-B.*, Supramolecular engineering of cascade energy transfer in light-harvesting systems for high-efficiency photocatalysis. Dyes and Pigments, 2026, 246, 113368.

2. Zhu, R.-X.; Jia, S.-Q.; Dong, R.; Liu, H.; Yu, S.;* Xing, L.-B.,* Multilevel supramolecular assemblies achieving cascaded enhancement of superoxide anion radical generation for visible-light-driven thiocyanation of anilines. J. Colloid Interface Sci.2025, 700, 138580.

3. Zhu, R.-X.; Li, G.-L.; Liu, H.; Yu, S.;* Xing, L.-B.,* Modulating photocatalytic decarbonylative Minisci alkylation through conjugation engineering in pyrene-based hydrogen-bonded organic frameworks. J. Mater. Chem. A2025, 13, 25693-25702.

4. Ge, H.-C.; Yu, S.;* Zhu, J.; Zhan, X.-T.; Jia, S.-Q.; Xing, L.-B.;* Jin, L. Y.,* Artificial Light-Harvesting System with Three-Step Cascade Energy Transfer Process for Full-Color Luminescence Modulation. ACS Appl. Mater. Interfaces2025, 17, 69866-69875.

5. Yang, X.-Z.; Zhang, Z.-G.; Xin, C.-L.; Liu, H.; Yu, S.;* Xing, L.-B.;* Artificial light-harvesting system with sequential energy transfer in photocatalytic C-P coupling based on supramolecular organic framework of triphenylamine. J. Colloid Interface Sci., 2025, 680, 587-595.

6. Li, G.-L.; Yang, X.-Z.; Zhu, R.-X.; Liu, H.; Yu, S.;* Xing, L.-B.,* Boosting porphyrin photocatalysis in thiophenol cross-coupling via supramolecular host-guest engineering. Dyes and Pigments2025, 240, 112860.

7. Yu, S.; Zhu, R.-X.; Niu, K.-K.; Han, N.; Liu, H.; Xing, L.-B.,* Switchover from singlet oxygen to superoxide radical through a photoinduced two-step sequential energy transfer process. Chem. Sci.2024, 15, 1870-1878. （ESI高被引论文）

8. Yang, X.-Z.; Li, G.-L.; Xin, Q.; Niu, K.-K.; Liu, H.; Yu, S.;* Xing, L.-B.,* A Highly Efficient Supramolecular Polymer-Based Singlet Oxygen Generator for Photocatalytic Minisci Alkylation. Langmuir, 2024, 40, 19279-19286.

9. Li, G.-L.; Niu, K.-K.; Yang, X.-Z.; Liu, H.; Yu, S.;* Xing, L.-B.,* A Hydrogen-Bonded Organic Framework based on Triphenylamine for Photocatalytic Silane Hydroxylation. Inorg. Chem.,2024, 63, 16533-16540.

10. Zhu, R.-X.; Ge, H.-C.; Niu, K.-K.; Liu, H.; Dong, R.; Yu, S.;* Xing, L.-B.,* Tunable multicolor supramolecular assemblies based on phosphorescence cascade energy transfer for photocatalytic organic conversion and anti-counterfeiting. J. Colloid Interface Sci.,2024, 675, 893-903.

11. Li, G.-L.; Niu, K.-K.; Yang, X.-Z.; Liu, H.; Yu, S.;* Xing, L.-B.,* A supramolecular cascade assembly with a two-step sequential energy transfer process for enhanced photocatalytic performance. J. Mater. Chem. A, 2024, 12, 13356-13363.

12. Yao, X.-Y.; Yu, S.;* Zhang, R.-Z.; Wang, F.-D.; Liu, H.; Niu, K.-K.;* Xing, L.-B.;* Li, P.-Z.,* Transformation of Reactive Oxygen Species Caused by Assembly of Excitation Modules into Supramolecular Organic Framework for Photocatalysis. Sci. China Mater.2024, 67, 833-841.

13. Zhu, R.; Yu, S.;* Yang, X.; Zhu, R.; Liu, H.; Niu, K.; Xing, L.-B.,* Construction of pyrene-based hydrogen-bonded organic frameworks as photocatalysts for photooxidation of styrene in water. Chin. Chem. Lett.2024, 35, 109539.

14. Yang, X.-Z.; Wang, D.; Yu, S.;* Niu, K.-K.; Li, G.-L.; Liu, H.; Xing, L.-B.,* Construction of supramolecular organic frameworks with reactive oxygen species enhancement properties for photocatalytic organic transformation. Mol. Catal.2024, 560, 114153.

15. Yang, X.-Z.; Zhu, R.-X.; Zhu, R.-Y.; Liu, H.; Yu, S.;* Xing, L.-B.,* Superoxide radical generator based on triphenylamine-based supramolecular organic framework for green light photocatalysis. J. Colloid Interface Sci.2024, 658, 392-400.

16. Zhu, R.-X.; Yu, S.;* Zhu, P.-B.; Gou, X.; Yang, X.-Z.; Liu, H.; Xing, L.-B.,* A highly specific colorimetric and fluorometric sensor for ClO− and Fe3+ based on a pyrene derivative. J. Photochem. Photobiol., A2024, 450, 115440.

17. Wang, Y.; Zhu, R.; Hang, Y.; Wang, R.; Dong, R.; Yu, S.;* Xing, L.-B.,* Artificial supramolecular light-harvesting systems based on a pyrene derivative for photochemical catalysis. Polym. Chem.2023, 14, 248-252.

18. Wang, Y.; Xu, J.; Wang, R.; Liu, H.; Yu, S.;* Xing, L.-B.,* Supramolecular polymers based on host-guest interactions for the construction of artificial light-harvesting systems. Spectrochim. Acta A2022, 279, 121402.

19. Li, X.-L.; Wang, Y.; Song, A.; Zhang, M.-H.; Jiang, M.; Liu, H.; Wang, R.; Yu, S.* Xing, L.-B.,* The construction of an artificial light-harvesting system with two-step sequential energy transfer based on supramolecular polymers. Soft Matter 2021, 17, 9871-9875.

20. Yu S.; Yang Y.; Sui M.; Sun G.-Y.; Chen T. and Jin L. Y.,* Photo-controlled reversible assemblies from rod-coil molecules with azobenzene group, Dyes and Pigments2019, 171, 107694.

21. Yu S.; Sun R.; Chen T. and Jin L. Y.,* Supramolecular helical nanostructures from self-assembly of coil-rod-coil amphiphilic molecules incorporating the dianthranide unit. Soft Matter2018, 14, 6822-6827.

22. Yu S.; Shan R.; Sun G.-Y.; Chen T.; Wu L.* and Jin L. Y.,* Construction of Various Supramolecular Assemblies from Rod-Coil Molecules Containing Biphenyl and Anthracene Groups Driven by Donor-Acceptor Interactions. ACS Appl. Mater. Interfaces2018, 10, 22529-22536.

23. Yu S.; Yang Y.; Chen T.; Xu J.* and Jin L. Y.,* Donor-acceptor interaction-driven self-assembly of amphiphilic rod-coil molecules into supramolecular nanoassemblies. Nanoscale2017, 9, 17975-17982.

24. Yu S.; Yang Y.; Li C.; Chen T.* and Jin L. Y.,* Three-dimensional crystalline supramolecular nanostructures from self-assembly of rod-coil molecules incorporating lateral carboxyl group in the middle of the rod segment. Polym. Int.2015, 64, 1408-1414.