Zhaoke Zheng
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Date of Birth:1985-02-21
Gender:Male
Education Level:With Certificate of Graduation for Doctorate Study
Alma Mater:山东大学
Paper Publications
- [171] Huang Baibiao , Zhaoke Zheng , wangpeng , wangzeyan , liuyuanyuan , qinxiaoyan , zhangxiaoyang and 郑海龙. Ag-n(+) quantum dots obtained via in situ photodeposition method as photocatalytic CO2 reduction cocatalyst: Borrowing redox conversion between Ag+ and Ag-0. Applied Catalysis B-Environmental, 243, 381, 2019.
- [172] Dai Ying , Huang Baibiao , wangzeyan , liuyuanyuan , wangpeng , Zhaoke Zheng , liyingjie and 李慧亮. Effect of the intra- and inter-triazine N-vacancies on the photocatalytic hydrogen evolution of graphitic carbon nitride. Chemical Engineering Journal, 369, 263, 2019.
- [173] wangzeyan , wangpeng , Zhaoke Zheng , liuyuanyuan , Dai Ying , liyingjie , Huang Baibiao and 黄慧宁. Efficient near-infrared photocatalysts based on NaYF4:Yb3+,Tm3+@ NaYF4:Yb3+, Nd3+@TiO2 core@shell nanoparticles. Chemical Engineering Journal, 361, 1089, 2019.
- [174] Zhaoke Zheng. Plasmon-induced spatial electron transfer between single Au nanorods and ALD-coated TiO2: dependence on TiO2 thickness. 51, 14373, 2015.
- [175] Zhaoke Zheng. Single-Particle Study of Pt-Modified Au Nanorods for Plasmon-Enhanced Hydrogen Generation in Visible to Near-Infrared Region. 136, 6870, 2014.
- [176] Zhaoke Zheng. Plasmon-Enhanced Formic Acid Dehydrogenation Using Anisotropic Pd-Au Nanorods Studied at the Single-Particle Level. 137, 948, 2015.
- [177] Zhaoke Zheng. Nanoplasmonic Photoluminescence Spectroscopy at Single‐Particle Level: Sensing for Ethanol Oxidation. 128, 2929, 2016.
- [178] Zhaoke Zheng. Epitaxial Growth of Au-Pt-Ni Nanorods for Direct High Selectivity H2O2 Production. 28, 9949, 2016.
- [179] Zhaoke Zheng , Huang Baibiao and Dai Ying. Plasmon-Enhanced Solar Water Splitting on Metal-Semiconductor Photocatalysts. Chemistry-A European Journal, 24, 18322, 2018.
- [180] Dai Ying , Huang Baibiao and Zhaoke Zheng. Platinum electrocatalysts with plasmonic nano-cores for photo-enhanced oxygen-reduction. NANO ENERGY, 41, 233, 2017.