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　　•2. Hu, H.; Wang, Y.; Du, N.; Sun, Y.; Tang, Y.; Hu, Q.; Wan, P.; Dai, L.; Fisher, A. C.; Yang, X. J., Thermal-Treatment-Induced Cu−Sn Core/Shell Nanowire Array Catalysts for Highly Efficient CO2 Electroreduction. ChemElectroChem 2018, https://doi.org/10.1002/celc.201801267.

　　•3. Wang, Y.; Hu, H.; Sun, Y.; Tang, Y.; Dai, L.; Hu, Q.; Fisher, A.; Yang, X. J., synthesis of nanostructural high-performance Cu-Pb electrocatalysts for CO2 reduction, Advanced Materials Interfaces. 2018, https://doi.org/10.1002/admi.201801200.

　　•4. Sun, M.; Wu, T.; Li, T.; Guo, F.; Tang, Y.; Mo, H.; Yang, Z.; Wan, P., Research on High Performance Ammonium Removal Materials Based on delta-MnO2 Nanoplate Arrays Decorated Graphite Felt. Acta Chimica Sinica 2018, 76 (6), 467-474.

　　•5. Shuxian, Z.; Linan, W.; Hanjun, H.; Yang, T.; Yongmei, C.; Yanzhi, S.; Hengliang, M.; Xiaojin, Y.; Pingyu, W.; Khan, Z. U. H., Ultrafast Electrodeposition of Ni Metal and NiFe Hydroxides Composite with Heterogeneous Nanostructures as High Performance Multifunctional Electrocatalysts. ChemElectroChem 2018, 0 (ja).

　　•6. Liu, J.; Xiong, H.; Tong, S.; Tang, Y.; Chen, Y.; Sun, Y.; Yang, X.; Wan, P.; Khan, Z. U. H., Hydrogen-motivated electrolysis of sodium carbonate with extremely low cell voltage. Chemical Communications 2018, 54 (29), 3582-3585.

　　•7. Hu, H.; Tang, Y.; Hu, Q.; Wan, P.; Dai, L.; Yang, X. J., In-situ grown nanoporous Zn-Cu catalysts on brass foils for enhanced electrochemical reduction of carbon dioxide. Applied Surface Science 2018, 445, 281-286.

　　•8. Hou, M.; Pu, Y.; Qi, W.-k.; Tang, Y.; Wan, P.; Yang, X. J.; Song, P.; Fisher, A., Enhanced electrocatalytic reduction of aqueous nitrate by modified copper catalyst through electrochemical deposition and annealing treatment. Chemical Engineering Communications 2018, 205 (5), 706-715.

　　•9. Zhang, M.; Jin, X.; Wang, L.; Sun, M.; Tang, Y.; Chen, Y.; Sun, Y.; Yang, X.; Wan, P., Improving biomass-derived carbon by activation with nitrogen and cobalt for supercapacitors and oxygen reduction reaction. Applied Surface Science 2017, 411, 251-260.

　　•10. Xu, X.; Zhou, Y.; Fan, M.; Lv, Z.; Tang, Y.; Sun, Y.; Chen, Y.; Wan, P., Lithium adsorption performance of a three-dimensional porous H2TiO3-type lithium ion-sieve in strong alkaline Bayer liquor. Rsc Advances 2017, 7 (31), 18883-18891.

　　•11. Xu, J.; Pu, Y.; Qi, W.-K.; Yang, X. J.; Tang, Y.; Wan, P.; Fisher, A., Chemical removal of nitrate from water by aluminum-iron alloys. Chemosphere 2017, 166, 197-202.

　　•12. Sun, Y.; Liu, C.; Zhang, L.; Wan, P.; Zhuang, S.; Tang, Y.; Chen, Y.; Pan, J., Ultrafast Electrodeposition of Ni−Fe Hydroxide Nanosheets on Nickel Foam as Oxygen Evolution Anode for Energy-Saving Electrolysis of Na2CO3/NaHCO3. ChemElectroChem 2017, 4 (5), 1044-1050.

　　•13. Li, Z.; Shao, M.; Yang, Q.; Tang, Y.; Wei, M.; Evans, D. G.; Duan, X., Directed synthesis of carbon nanotube arrays based on layered double hydroxides toward highly-efficient bifunctional oxygen electrocatalysis. Nano Energy 2017, 37, 98-107.

　　•14. Kone, I.; Xie, A.; Tang, Y.; Chen, Y.; Liu, J.; Chen, Y.; Sung, Y.; Yang, X.; Want, P., Hierarchical Porous Carbon Doped with Iron/Nitrogen/Sulfur for Efficient Oxygen Reduction Reaction. Acs Applied Materials & Interfaces 2017, 9 (24), 20963-20973.

　　•15. Bao, Z.; Hu, Q.; Qi, W.; Tang, Y.; Wang, W.; Wan, P.; Chao, J.; Yang, X. J., Nitrate reduction in water by aluminum alloys particles. Journal of Environmental Management 2017, 196, 666-673.