金沙集团186cc(中国)成色有限公司

何乐

教授 博士生导师

2008年于南京大学获得学士学位，2013年于美国加州大学河滨分校获得化学博士学位。2013年至2015年在加拿大多伦多大学从事博士后研究。2015年9月加入苏州大学功能金沙集团186cc成色与软物质研究院，被聘为教授、博士生导师。入选国家级青年人才计划、江苏省“双创计划”、江苏省“333人才工程”第二层次、江苏省优青、江苏省六大人才高峰高层次人才。2023年1月至今担任苏州大学国际合作交流处处长、港澳台办公室主任。

Email: lehe@suda.edu.cn

Office：苏州大学独墅湖校区910楼205办公室

研究领域：

本课题组的研究集中于气相光催化二氧化碳还原，致力于解决现有体系在活性、选择性与稳定性方面存在的不足，加深对光催化机制与反应机理的理解。

主要成果和贡献：

• 在Nat. Energy、Nat. Commun.、Acc. Chem. Res、Adv. Mater.、Angew. Chem. Int. Ed.、Joule、Nano Lett.等期刊发表文章110篇，论文总引用5000余次，SCI H-index为40。已获授权美国发明专利2项，国内发明专利8项；撰写国际专著三部（章）；受邀担任30余个国际主流学术期刊审稿人。

• 加入苏州大学以来，以通讯作者在Nat. Energy、Nat. Commun.、Adv. Mater.、Angew. Chem. Int. Ed.、Joule、ACS Nano等国际杂志发表论文40余篇。

• 1名博士毕业生获江苏省优秀博士论文，1名博士毕业生入选博新计划，2名博士毕业生获江苏省卓越博士后计划

近期获奖与荣誉：

• 2022        江苏省“333人才工程”第二层次

• 2021        2021年中美化学与化学生物学教授联合会 “杰出教授奖”

• 2021        Journal of Materials Chemistry C Emerging Investigator

• 2020        江苏省优秀青年基金获得者

• 2020        IFAM第六届优秀青年学者论坛优秀报告奖

• 2019        江苏省双创团队成员

• 2017        “江苏省六大人才高峰”高层次人才

• 2017        苏州市高新区创业领军人才

• 2016        江苏省双创博士

• 2015        加拿大班廷博士后奖学金

招生方向：

本课题组热忱欢迎有志从事科研工作的本科生、硕士研究生和博士研究生加盟。招生方向包括“无机化学”、“物理化学”、以及“材料学”。欢迎具有化学、材料、或物理背景的同学报考。有疑问请随时联系lehe@suda.edu.cn。

招聘信息：

根据课题组发展需要，现拟招收1-2名从事金沙集团186cc成色材料合成与光催化二氧化碳还原研究领域的博士后研究人员，金沙集团186cc成色材料、自组装、光催化相关研究方向的申请者优先考虑。待遇优厚，且有机会到国外访学。有意者请发简历至lehe@suda.edu.cn。

Selective publications after joining FUNSOM:

1    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, ASAP. (^†equal contribution)

2   Zhong, G.; Zhao, R.; Shi, Y.; Li, C.; He, L.*; He, L.; Huang, Y.*; Thermal Shock Synthesis of Carbon Nanotubes Supporting Small-sized Rhenium Nanoparticles for Efficient Electrocatalytic Hydrogen Evolution, Rare Met., 2023, ASAP.

3    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, 34, 2108727.

4   Wang, S.^†; Zhang, D.^†; Wang, W.; Zhong, J.; Feng, K.; Wu, Z.; Du, B.; He, J.; Li, Z.; He, L.*; Sun, W.*; Yang, D.*; Ozin, G.*, Grave-to-cradle Upcycling of Ni from Electroplating Wastewater to Photothermal CO₂ Catalysis, Nat. Commun., 2022, 13, 5305

5    Zhang, C.^†; Kang, Q.^†; Chu, M.; He, L.*; Chen, J.*, Solar-Driven Catalytic Plastic Upcycling, Trends Chem., 2022, 4, 822-834.

6   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.

7   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

8    Guo, J.^†*; Song, R.^†; Li, Z.; Pan, D.; Xie, H.; Ba, Y.; Xie, M.; Fan, S.; Yang, X.; Zhang, H.; Yu, H.; Zhang, S.; Du, J.*; He, L.*; Wang, L.*, Gold Decorated Hydroxyapatite–CeO₂ Enabled Surface Frustrated Lewis Pairs for CO Oxidation, Adv. Energy Sustainability Res., 2022, 3, 2200106.

9    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.

10  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.

11  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. Journal of Inorganic Materials, 2022, 37, 22-28.

12  Cai, M.^†; Wu, Z.^†; Li, Z.^†; Wang, L.; Sun, W.; Tountas, A. A.; Li, C.; Wang, S.; Feng, K.; Xu, A. B.; Tang, S.; Tavasoli, A.; Peng, M.; Liu, W.; Helmy, A. S.; He, L.*; Ozin, G.*; Zhang, X.*, Greenhouse Inspired Supra-Photothermal CO₂ Catalysis, Nat. Energy 2021, 6, 807-814.

13  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.*; Zhang, X.*; He, L.*, Niobium and Titanium Carbides (MXenes) as Superior Photothermal Supports for CO₂ Photocatalysis, ACS Nano 2021, 15, 5696-5705.

14  Feng, K.; Tian, J.; Guo, M.; Wang, Y.; Wang, S.; Wu, Z.; Zhang, J.; He, L.*; Yan, B.*, Experimentally unveiling the origin of tunable selectivity for CO₂ hydrogenation over Ni-based catalysts, Appl. Catal., B 2021, 292, 120191.

15  Lou, D.^†; Zhu, Z.^†; Xu, Y. F.^†; Li, C.*; Feng, K.; Zhang, D.; Lv, K.; Wu, Z.; Zhang, C.; Ozin, G.*; 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.

16  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.

17  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.

18  Lou, D.^†; Xu, A.^†; 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.

19  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.

20   Wu, Z.; Zhang, C.; Li, C.*; He, L.*, Research Progress on Magnetically Responsive Smart Optical Nanomaterials, Materials China 2021, 40, 001-10.

21  Zhang, D.^†; Lv, K.^†; Li, C.; Fang, Y.; Wang, S.; Chen, Z.; Wu, Z.; Guan, W.; Lou, D.; Sun, W.*; Yang, D.; He, L.*; Zhang, X.*, All-Earth-Abundant Photothermal Silicon Platform for CO₂ Catalysis with Nearly 100% Sunlight Harvesting Ability, Solar RRL 2021, 5, 2000387.

22  Feng, K.^†; Wang, S.^†; Zhang, D.^†; Wang, L.; Yu, Y.; Feng, K.; Li, Z.; Zhu, Z.; Li, C.; Cai, M.; Wu, Z.; Kong, N.; Yan, B.; Zhong, J.*; Zhang, X.*; Ozin, G.*; He, L.*, Cobalt Plasmonic Superstructures Enable Almost 100% Broadband Photon Efficient CO₂ Photocatalysis, Adv. Mater. 2020, 32, 2000014.

23  Fang, Y.^†; Lv, K.^†; Li, Z.; Kong, N.; Wang, S.; Xu, A.B.; Wu, Z.; Jiang, F.; Li, C.*; Ozin, G.*; He, L.*, Solution-Liquid-Solid Growth and Catalytic Applications of Silica Nanorod Arrays, Adv. Sci. 2020, 7, 2000310.

24  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.

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

26  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.

27   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.

28  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.

29  Zhang, B.; Jie, J.*; Shao. Z.; Huang, S.; He, L.*; Zhang, X.*, One-step growth of large-area silicon nanowire fabrics for high performance multifunctional wearable sensors, Nano Res. 2019, 12, 2723-2728.

30  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, A. G.*; Zhang, X.*, Single-Stimulus-Induced Modulation of Multiple Optical Properties, Adv. Mater. 2019, 31, 1900388.

31  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.

32   Wang, S.; Li, C.; Chen, Z.; Zhu, Z.; Zhu, Q.; Tang, R.; Sun, W.; He, L.*; Zhang, X.*, Anomalous effect of the aging degree on the ionic permeability of silica shells, RSC Adv. 2018, 8, 38499-38505.

33   Zhang, S.^†; Li, C.^†; Zhang, J.; Yu, Y.; Zhou, H.; Tang, R.; Li, Y.; Yu, J.; Du, X.; 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.

34  Wang, L.^†; Ghoussoub, M.^†; Wang, H.; Dong, Y.; Shao, Y.; Tountas, A.; Wood, T.; Li, H.; Sun, W.; Xia, M.; Li, Y.; Wang, S.; Jia, J.; Qiu, C.; Qian, C.; He, L.*; Zhang, X.*; Ozin, G.*, Photocatalytic Hydrogenation of Carbon Dioxide with High Selectivity to Methanol at Atmospheric Pressure, Joule 2018,2, 1369-1381.

35   Li, C.; Zhang, S.; Zhang, B.; Liu, J.; Zhou, H.; Solovev, 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.

36  Wang, L.^†; Cai, M.^†; Sun, W.*; He, L.*; Zhang, X.*, Promoting Charge Separation in Semiconductor Nanocrystal Superstructures for Enhanced Photocatalytic Activity, Adv. Mater. Interfaces 2018, 5, 1701694.

37   Zhu, Z.^†; Zhang, S.^†; Li, C.; Zhang, J.; Yu, J.; Du, X.; He, L.*; Zhang, X.*, A Mechanistic Study of Silica-Etching by Hot Water, Phys. Chem. Chem. Phys. 2018, 20, 1440-1446.

38  Cao, M.^†; Liu, Q.^†; Chen, M.^†; Yang, P.; Xu, Y.; Wu, H.; Yu, J.; He, L.*; Zhang, X.*; Zhang, Q.*, Dispersing Hydrophilic Nanoparticles in Nonaqueous Solvents with Superior Long-Term Stability, RSC Adv. 2017, 7, 25535-25541.

39  Yang, P.^†; Li, H.^†; Zhang, S.; Chen, L.; Zhou, H.; Tang, R.; Zhou, T.; Bao, F.; Zhang, Q.*; He, L.*; Zhang, X.*, Gram-Scale Synthesis of Superparamagnetic Fe₃O₄ Nanocrystal Clusters with Long-Term Charge Stability for Highly Stable Magnetically Responsive Photonic Crystals, Nanoscale 2016, 8, 19036-19042.

40  Sun, W.^†; Qian, C.^†; He, L.*; Ghuman, K.; Wong, A.; Jia, J.; O'Brien, P.; Reyes, L.; Wood, T.; Helmy, A.; Mims, C.; Singh, C.; Ozin, G.*, Heterogeneous Reduction of Carbon Dioxide by Hydride-Terminated Silicon Nanocrystals, Nat. Commun. 2016, 7, 12553.

41  He, L.*; Wood, T.; Wu, B.; Dong, Y.; Hoch, L.; Reyes, L.; Wang, D.; Kübel, C.; Qian, C.; Jia, J.; Liao, K.; O'Brien, P.; Sandhel, A.; Loh, J.; Szymanski, P.; Kherani, N.; Sum, T.; Mims, C.; and Ozin, G.*, Spatial Separation of Charge Carriers in In₂O_3-x(OH)_y Nanocrystal Superstructures for Enhanced Gas Phase Photocatalytic Activity, ACS Nano 2016, 10, 5578-5586.

Selective publications before joining FUNSOM:

42   He, L.^†; Janner, M.^†; Lu, Q.; Wang, M.; Ma, H. and Yin, Y.*, Magnetochromatic Thin Film Microplates, Adv. Mater. 2015, 27, 86-92.

43  He, L.; Wang, M.; Zhang, Q.; Lu, Y.; Yin, Y.*, Magnetic Assembly and Patterning of General Nanoscale Materials through Nonmagnetic Templates, Nano Lett. 2013, 13, 264-271.

44 He, L.; Wang, M.; Ge, J.; Yin, Y.*, Magnetic Assembly Route to Colloidal Responsive Photonic Nanostructures, Acc. Chem. Res. 2012, 45, 1431-1440.

45  He, L.; Hu, Y.; Wang, M.; Yin, Y.*, Determination of Solvation Layer Thickness by A Magneto-photonic Approach, ACS Nano. 2012, 6, 4196-4202.

46  He, L.^†; Malik, V.^†; Wang, M.; Hu, Y.; Yin, Y.*, Self-Assembly and Magnetically Induced Phase Transition of Three-Dimensional Colloidal Photonic Crystals, Nanoscale 2012, 4, 4438-4442.

47   He, L.; Hu, Y.; Han, X.; Lu, Y.; Lu, Z.; Yin, Y.*, Assembly and Photonic Properties of Superparamagnetic Colloids in Complex Magnetic Fields, Langmuir 2011, 27, 13444-13450.

48  He, L. and Yin, Y., “Magnetically Responsive Photonic Nanostructures: Making Color Using Magnets”, Proc. SPIE 2011, 8031, 80310U2-7.

49   He, L.; Hu Y.; Kim, H.; Ge, J.; Kwon, S. and Yin, Y.*, Magnetic Assembly of Nonmagnetic Particles into Photonic Crystal Structures, Nano Lett. 2010, 10, 4708–4714.

发表论文详见：https://publons.com/researcher/2792977/le-he/