基本情况

许小亮19837月毕业于中国科学技术大学近代物理系,19994月在香港大学获得博士学位,现任中国科学技术大学教授。许小亮教授自1989年起即开始从事固体中阴极射线荧光(CL)和光致荧光(PL)的研究。1991年至1993年间,获国家自然科学基金的资助,主持半导体及其氧化物的光学跃迁的研究,1994年赴香港大学后,亦继续从事这方面的研究,从1996年起开始从事III-V族半导体GaN发光薄膜和InP的光学和电学性质的研究。

 

研究领域

微纳米功能材料及其在生物医学、可再生能源、环境学和军事方面的应用研究

 

论文发表

1. Tang, WZ, Cao H, Ma PY, Ding T, Huang SS, Wang JJ, Li QX, Xu XL, Yang, JL. Construction of an electron capture and transfer center for highly efficient and selective solar-light-driven CO2 conversion. Nano Lett 2024, 24: 5317-5323

2. Tang WZ, Meng J, Ding T, Huang HS, Tan ChunT, Zhong QG, Cao, H, Li QX, Xu XL, Yang JL. Efficient interfacial charge transfer enables nearly 100% selectivity for solar-light-driven CO2 conversion. ACS Catalysis 2024, 14: 7506-7513

3. Chen K, Zhou S, Jiang TT, Li XD, Yu J, Wang QY, Xu XL, Zhu LX. Synergy of Fe dopants and oxygen vacancies confined in atomically-thin cobaltous oxidesheets for high-efficiency CO2 photoreduction. J Mater Chem A 2021, 9: 22353-22363

4. Li XD, Liang L, Sun YF, Xu JQ, Jiao XC, Xu XL, Ju HX, Pan Y, Zhu JF, Xie Y. Ultrathin conductor enabling efficient IR light CO2 reduction. J American Chem Soc 2019, 141: 423-430

5. Wang QY, Chen K, Wang SH, Jiang DH, Ma CQ, Zhu LX, Xu XL. An in situ-fabricated p-Co3O4@n-ZnO surface heterojunction photocatalyst for solar-to-fuel conversion of CO2. Mate Chem Front 2023, 7: 523-534

6. Chen K, Wang QP, Xie H, Yu J, Zhu LX, Wu BS, Xu XL. Oxygen vacancy drives CoO atomic layers directional photoreduction of CO2 to CH4. Sol RRL 2023, 7: 2300210

7. Chen K, Jiang TT, Liu TH, Yu J, Zhou S, Ali A, Wang SH, Liu Y, Zhu LX, Xu XL. Zn dopants synergistic oxygen vacancy boosts ultrathin CoO layer for CO2 photoreduction. Adv Funct Mater 2022, 32: 2109336

8. Wang QY, Chen K, Wang SH, Li YJ, Zeng LH, Ma CQ, Jiang DH, Zhu LX, Xu XL. Rationally designed plasmonic hybrid coupling structure of Ag/rGO-ZnO for enhanced photocatalytic CO2 reduction. J Alloys Comp 2021, 887: 161457

9. Yin NQ, Wang XL, Yang TH, Ding YL, Li LQ, Zhao SH, Li P, Xu XL, Zhu LX. Multifunctional Fe3O4 cluster@ quantum dot-embedded mesoporous SiO2 nanoplatform probe for cancer cell fluorescence-labelling detection and photothermal therapy. Ceramics Internat 2021, 47: 8271-8278

10. Yao LZ, Ying ZQ, Wang W, Yang ZH, Sun JJ, Wang XL, Yang X, Zeng YH, Yan BJ, Xu XL, Ye JC. Solution-processed and annealing-free zirconium acetylacetonate electron-selective contacts for efficient crystalline silicon solar cells. Sol. Energy 2021, 215: 410-419

11. Li YJ, Wang SH, Wu J, Wang QY, Ma CQ, Jiang DH, Hu WL, Zhu LX, Xu XL. Metal-free porous phosphorus-doped g-C3N4 photocatalyst achieving efficient synthesis of benzoin. RSC Adv 2021, 11: 12682-12686

12. Wang SH, ZhangY, Li YJ, Chen K, Dai YW, Zhou DC, Ali A, Yang SY, Xu XL, Jiang TT, Zhu LX. Au nanostars@PDA@Fe3O4-based multifunctional nanoprobe for integrated tumor diagnosis and photothermal therapy. Mater Design 2021, 201: 109707

13. Wang SH, Zhan JW, Chen K, Ali A, Zeng LH, Zhao H, Hu WL, Zhu LX, Xu XL. Potassium-Doped g-C3N4 Achieving efficient visible-light-driven CO2 reduction. ACS Sustan Chem Engin 2020, 8: 8214-8222

14. Li YJ, Jin S, Xu XL, Wang SH, Zhang XD. Excitonic effects on photophysical processes of polymeric carbon nitride. J App Phys 2020, 127: 170903

15. Xie H, Fang SH, Zhao H, Xu XL, Ye N, Zhuang W. Quasiparticle effects on the linear and nonlinear susceptibility of ZnGeP2. RSC Advances 2019, 9: 35771-35779

16. Dai YW, Zhu LX, Zhang Y, Wang SH, Chen K, Jiang TT, Xu XL. Au@SiO2@CuInS2-ZnS/Anti-AFP fluorescent probe improves HCC cell labeling. Hepatob Pancreat Dis 2019, 18: 266-272

17. Ali A, Mangrio FA, Chen XL, Dai YW, Chen K, Xu XL, Xia RX, Zhu LX. Ultrathin MoS2 nanosheets for high-performance photoelectrochemical applications via plasmonic coupling with Au nanocrystals. Nanoscale 2019, 11: 7813-7823

18. Song JLQ, Zhang Y, Dai YW, Hu JH, Zhu LX, Xu XL, Yu Y, Li H, Yao B, Zhou HX. Polyelectrolyte-Mediated nontoxic AgGaxIn1-xS2 QDs/Low-Density lipoprotein nanoprobe for selective 3D fluorescence imaging of cancer stem cells. ACS App Mate Interf 2019, 11: 9884-9892

19. Li XD, Sun YF, Xu JQ, Shao YJ, Wu J, Xu XL, Pan Y, Ju HX, Zhu JF, Xie Y, Selective visible-light-driven photocatalytic CO2 reduction to CH4 mediated by atomically thin CuIn5S8 layers. Nature Energy 2019, 4: 690-699