Zheng Wu, Professor

Zheng Wu received her Ph.D. degree from China University of Geosciences (Beijing). In 2016, She obtained an associate professor position in the College of Geography and EnvironmentalSciences at Zhejiang Normal University. In 2019, She joined the College of Environmental and Chemica Engineering of Xi'an Polytechnic University. Her current research interests focuson pyro/piezo-catalysis.

◆Seletced Publciation Papers:

1) Zheng Wu*, et al., Room-temperature pyro-catalytic hydrogen generation of 2D few-layer black phosphorene under cold-hot alternation, Nature Communications 9,2889 (2018)

2) Zheng Wu*, et al., Harvesting the vibration energy of BiFeO3 nanosheets for hydrogen evolution,Angew. Chem. Int. Ed. 58(34), 11779-11784 (2019)

3) Zheng Wu*, et al., Pyro-catalytic hydrogen evolution by Ba0.7Sr0.3TiO3 nanoparticles: harvesting cold–hot alternation energy near room-temperature. Energy & Environmental Science, 11, 2198-2207 (2018) (SCI 一区  IF=33.25)

4) Zheng Wu*, et al., High efficiency bi-harvesting light/vibration energy using piezoelectric zinc oxide nanorods for dye decomposition, Nano Energy 62, 376  (2019)

5）Zheng Wu*, et al., Review on strategies toward efficient piezocatalysis of BaTiO3 nanomaterials for wastewater treatment through harvesting vibration energy, Nano Energy , 113,  108507 (2023)

6) Zheng Wu (Co-first author) ,et al., Strong tribocatalytic dye decomposition through ultilizing triboelectric energy of barium strontium titanate nanoparticles,. Nano Energy 63, 103832 (2019)

7) Zheng Wu (Co-first author),et al., Piezoelectrically/pyroelectrically-driven vibration/cold-hot energy harvesting for mechano-/pyro- bi-catalytic  dye decomposition of NaNbO3 nanofibers. Nano Energy, 52, 351(2018)

8) Zheng Wu*, et al., The enhanced pyrocatalysis of the pyroelectric BiFeO3/g-C3N4 heterostructure for dye decomposition driven by cold-hot temperature alternation. Journal of Advanced Ceramics, 10, 338 (2021).(SCI 一区 IF=16.9)

9). Zheng Wu, Taosheng Xu, et al., Ferroelectric BaTiO3/Pr2O3 heterojunction harvesting room-temperature cold–hot alternation energy for efficiently pyrocatalytic dye decomposition, Journal of Advanced Ceramics, (Doi: 10.26599/JAC.2024.9220834   (2023)

10) Zheng Wu, T. Xu, et al., Natural tourmaline for pyroelectric dye decomposition under 25–60 °C room-temperature cold-hot fluctuation, Separation and Purification Technology, 327, 124971, (2023)

11) Zheng Wu, W. Luo, Strong pyro-catalysis of shape-controllable bismuth oxychloride nanomaterial for wastewater remediation, Appl. Surf. Sci., 513, 145630, (2020)

12) Zheng Wu*, et al. High-efficient synergy of piezocatalysis and photocatalysis in bismuth oxychloride nanomaterial for dye decomposition, Chemosphere 228, 212 (2019)

13) Zheng Wu*, et al., Highly efficient pyrocatalysis of pyroelectric NaNbO3 shape-controllable nanoparticles for room-temperature dye decomposition, Chemosphere 199, 531 (2018)

14) Zheng Wu*, Strong vibration-catalysis of ZnO nanorods for dye wastewater degradation via piezo-electro-chemical coupling, Chemosphere 193, 1143 (2018)（ESI高被引论文）

15) Zheng Wu*, et al., Dye wastewater treatment driven by cyclically heating/ cooling the poled (K0.5Na0.5)NbO3 pyroelectric crystal catalyst, Journal of Cleaner Production, 276, 124218 (2020)