李超然 副研究员

教育经历：

2006/09-2010/07，厦门大学，化学化工学院，化学系，理学学士

2010/09-2015/07，中国科学院福建物质结构研究所，理学博士

工作经历：

2015/12-2020/04，18新利体育 ，功能纳米与软物质研究院，博士后

2020/04-至今，18新利体育 ，功能纳米与软物质研究院，副研究员

所在课题组：

何乐教授课题组

联系方式：

江苏省苏州市工业园区仁爱路199号，909-3325

邮箱：crli@suda.edu.cn

办公电话：0512-65880226

研究领域：

光催化二氧化碳高值转化

代表性研究成果：

自2013年以来，从事纳米结构的设计、可控合成及催化应用探索。目前已在Nat. Energy, Adv. Mater., Angew. Chem. Int. Ed., ACS Nano, Adv. Sci.等化学、材料领域高水平期刊上发表40余篇学术论文。

近年来代表性论文：

1. Cai, M.^#; Li, C.^#; An, X.^#; Zhong, B.; Zhou, Y.; Feng, K.; Wang, S.; Zhang, C.; Xiao, M.; Wu, Z.; He, J.; Wu, C.; Shen, J.; Zhu, Z.; Feng, K.; Zhong, J.; He, L.*, Supra-photothermal CO₂ methanation over greenhouse-like plasmonic superstructures of ultra-small cobalt nanoparticles, Adv. Mater., 2023, 35, 2308859.

2. Zhu, Z.^#; Tang, R.^#; Li, C.*; An, X.*; He, L.*, Promises of Plasmonic Antenna-Reactor Systems in Gas-Phase CO₂ Photocatalysis, Adv. Sci., 2023, 10, 2302568.

3. Xi, Y.^#; Cai, M.^#; Wu, Z.; Zhu, Z.; Shen, J.; Zhang C.; Tang, R.; An, X.*; Li, C.*; He, L.*, Identification of photochemical effects in Ni-based photothermal catalysts, Chinese J. Struct. Chem., 2023, 42, 100071.

4. Wu, Z.^#; Shen, J.^#; Li, C.*; Zhang, C.; Feng, K.; Wang, Z.; Wang, X.; Meira, D.; Cai, M.; Zhang, D.; Wang, S.; Chu, M.; Chen, J.; Xi, Y.; Zhang, L.; Sham, T.; Genest, A.; Rupprechter, G.; Zhang, X.*; He, L.*, Mo₂TiC₂ MXene-Supported Ru Clusters for Efficient Photothermal Reverse Water Gas Shift. ACS Nano. 2023, 17, 1550–1559.

5. Shen, X.; Li, C.*; Wu, Z.; Tang, R.; Shen, J.; Chu, M.; Xu, A.; Zhang, B.*; He, L.*; Zhang, X., Rationally Designed Nanoarray Catalysts for Boosted Photothermal CO₂ Hydrogenation. Nanoscale 2022, 14, 11568–11574.

6. Chen, Z.^#; Li, H.^#; Li, C.*; Liu, J.; Hua, W.; Zhang, X.; Zhang, C.; Xiao, M.; Xu, A.B.; He, L.*; Zhang, X.*, Shear-induced alignment of low-aspect-ratio nanorods for modulations of multiple optical properties. J. Mater. Chem. C 2022, 10, 9478–9483.

7. Zhu, Z.^#; Hu, X.^#; An, X.; Xiao, M.; Zhang, L.; Li, C.*; He, L.*, Photothermal catalytic CO₂ hydrogenation with high activity and tailored selectivity over monodispersed Pd-Ni nanoalloys. Chem. Asian J. 2022, 17, e202200993.

8. Shen, J.^#; Tang, R.^#; Wu, Z.; Wang X.; Chu, M.; Cai, M.; Zhang, C.; Zhang, L.; Yin, K.; He, L.*; Li, C.*, Integrated Photothermal Nanoreactors for Efficient Hydrogenation of CO₂. Trans. Tianjin Univ. 2022, 28, 236–244.

9. Wang, X.; Zhu, Z.; Wu, Z.; Zhang, C.; Chen, Z.; Xiao, M.; Li, C.*; He, L.*, Preparation and Photothermal Catalytic Application of Powder-form Cobalt Plasmonic Superstructures. J. Inorg. Mater. 2022, 37, 22–28.

10. Zhu Z.^#; Feng K.^#; Li C.*; Tang R.; Xiao M.; Song R.; Yang D.; Yan B.*; He L.*, Stabilization of Exposed Metal Nanocrystals in High-temperature Heterogeneous Catalysis. Adv. Mater. 2022, 33, 2108727.

11. Tang R.^#; Zhu Z.^#; Li C.*; Xiao M.; Wu Z.; Zhang D.; Zhang C.; Xiao Y.; Chu M.; Genest A.; Rupprechter G.; Zhang L.; Zhang X.*; He L.*, Ru-Catalyzed Reverse Water Gas Shift Reaction with Near-Unity Selectivity and Superior Stability. ACS Materials Lett. 2021, 3, 1652–1659.

12. Xiao, M.; Liu, J.*; Chen, Z.; Liu, W.; Zhang, C.; Yu, Y.; Li, C.*; He, L.*, Magnetic assembly and manipulation of Janus photonic crystal supraparticles from a colloidal mixture of spheres and ellipsoids.J. Mater. Chem. C 2021, 9, 11788–11793.

13. Shen, J.^#; Wu, Z.^#; Li, C.*; Zhang, C.; Genest, A.; Rupprechter, G.; He, L.*, Emerging applications of MXene materials in CO₂ photocatalysis. FlatChem 2021, 28,100252.

14. Wu, Z.; Li, C.*; Li, Z.; Feng, K.; Cai, M.; Zhang, D.; Wang, S.; Chu, M.; Zhang, C.; Shen, J.; Huang, Z.; Xiao, Y.; Ozin, G. A.*; Zhang, X.*; He, L.*, Niobium and Titanium Carbides (MXenes) as Superior Photothermal Supports for CO₂ Photocatalysis.ACS Nano 2021,15, 5696–5705.

15. Lou, D.^#; Xu, A. B.^#; Fang, Y.; Cai, M.; Lv, K.; Zhang, D.; Wang, X.; Huang, Y.*; Li, C.*; He, L.*, Cobalt‐sputtered anodic aluminum oxide membrane for efficient photothermal CO₂ hydrogenation.ChemNanoMat 2021, 7, 1008–1012.

16. Lou, D.^#; Zhu, Z.^#; Xu, Y.-F.^#; Li, C.*; Feng, K.; Zhang, D.; Lv, K.; Wu, Z.; Zhang, C.; Ozin, G. A.*; He, L.*; Zhang, X., A core-shell catalyst design boosts the performance of photothermal reverse water gas shift catalysis.Sci. China Mater.  2021, 64, 2212–2220.

17. Zhang, C.^#; Wu, Z.^#; Chen, Z.; Pan, L.*; Li, J.; Xiao, M.; Wang, L.*; Li, H.; Huang, Z.; Xu, A.-B.; Li, C.*; He, L., Photonic nanostructures of nanodiscs with multiple magneto-optical properties. J. Mater. Chem. C 2020, 8, 16067–16072.

18. Fang, Y.^#; Lv, K.^#; Li, Z.; Kong, N.; Wang, S.; Xu, A. B.; Wu, Z.; Jiang, F.; Li, C.*; Ozin, G. A.*; He, L.*, Solution–liquid–solid growth and catalytic applications of silica nanorod arrays. Adv. Sci. 2020, 2000310.

19. Li, C.^#; Zhang, J.^#; Wang, S.; Zhu, Z.; Li, H.; Xu, A.-B.; Yu, Y.; Wang, X.; Yao, J.; Wang, L.*; Solovev, A. A.; He, L.*, Silica nanocapsules with unusual shapes accessed by simultaneous growth of the template and silica nanostructure. Chem. Mater. 2020, 32, 575–581.

20. Kong, N.; Han, B.; Li, Z.; Fang, Y.; Feng, K.; Wu, Z.; Wang, S.; Xu, A.-B.; Yu, Y.; Li, C.*; Lin, Z.*; He, L.*, Ruthenium nanoparticles supported on Mg(OH)₂ microflowers as catalysts for photothermal carbon dioxide hydrogenation. ACS Appl. Nano Mater. 2020, 3, 3028–3033.

21. Cai, M.; Li, C.*; He, L.*, Enhancing Photothermal CO₂ Catalysis by Thermal Insulating Substrates. Rare Met. 2020,39, 881–886.

22. Li, C.^#; Yao, J.^#; Huang, Y.; Xu, C.; Lou, D.; Wu, Z.; Sun, W.; Zhang, S.; Li, Y.; He, L.*; Zhang, X.*, Salt-templated growth of monodisperse hollow nanostructures. J. Mater. Chem. A 2019, 7, 1404–1409.

23. Li, C.^#; Yu, Y.^#; Wang, L.*; Zhang, S.; Liu, J.; Zhang, J.; Xu, A.-B.; Wu, Z.; Tong, J.; Wang, S.; Xiao, M.; Fang, Y.; Yao, J.; Solovev, A. A.; Dong, B.; He, L.*, A step-by-step strategy for controlled preparations of complex heterostructured colloids. Chem. Mater. 2019, 31, 9513–9521.

24. Li, H.^#; Li, C.^#; Sun, W.; Wang, Y.; Hua, W.; Liu, J.; Zhang, S.; Chen, Z.; Wang, S.; Wu, Z.; Zhu, Q.; Tang, R.; Yu, J.; He, L.*; Ozin, G. A.*; Zhang, X.*, Single-stimulus-induced modulation of multiple optical properties. Adv. Mater. 2019, 31, 1900388.

25. Liu, J.^#; Xiao, M.^#; Li, C.*; Li, H.; Wu, Z.; Zhu, Q.; Tang, R.; Xu, A. B.; He, L.*, Rugby-ball-like photonic crystal supraparticles with non-close-packed structures and multiple magneto-optical responses. J. Mater. Chem. C 2019, 7, 15042–15048.

26. Zhang, S.^#; Li, C.^#; Yu, Y.; Zhu, Z.; Zhang, W.; Tang, R.; Sun, W.; Xie, W.; Li, Y.; Yu, J.; He, L.*; Zhang, X.*, A general and mild route to highly dispersible anisotropic magnetic colloids for sensing weak magnetic fields. J. Mater. Chem. C 2018, 6, 5528–5535.

27. Li, C.; Zhang, S.; Zhang, B.; Liu, J.; Zhang, W.; Solovev, A. A.; Tang, R.; Bao, F.; Yu, J.; Zhang, Q.; Lifshitz*, Y.; He, L.*; Zhang, X.*, Local-curvature-controlled non-epitaxial growth of hierarchical nanostructures. Angew. Chem. Int. Ed. 2018, 57, 3772–3776.

主持的主要研究项目：

1. 国家自然科学基金面上项目，No. 52272229，主持，在研。

2. 国家自然科学基金青年基金，No. 21902113，主持，已结题。

3. 中国博士后科学基金面上资助（第61批），2017M611893，主持，已结题。

责任编辑：杨娟