课题组

1. Shi, X.; Back, S.; Gill T.M.; Siahrostami, S.; Zheng, X.; Electrochemical synthesis of H2O2 by two-electron water oxidation reaction. Chem, 2021, 7，38-63.

2. Shi X.; Siahrostami S.; Li. G.-L.; Zhang Y.; Chakthranont P.; Studt F.; Jaramillo T.; Zheng X.; Nørskov, J.K. Understanding Activity Trends in Electrochemical Water Oxidation to form Hydrogen Peroxide. Nature Communications, 2017, 8, 701.（ESI highly cited）

3. Shi. X., Zhang, Y, Siahrostami, S., Zheng, X., Light-driven BiVO4-C Fuel Cell with Simultaneous Production of H2O2, Advanced Energy Materials, 2018, 8, 1801158.

4. Shi. X. Fields, M., Nørskov, J.K., Zheng, X. Rapid flame doping of Co to WS2 for efficient Hydrogen Evolution. Energy & Environmental Science, 2018, 11, 2270-2277.

5. Shi, X.; Jeong, H.; Oh, S. J.; Ma, M.; Zhang, K.; Kwon, J.; Choi, I.T.; Choi, I.Y.; Kim, H.K.; Kim, J.K; Park, J. H. Unassisted photoelectrochemical water splitting exceeding 7% solar-to-hydrogen conversion efficiency using photon recycling. Nature Communications, 2016. 7, 11943.

6. Kelly, S. $; Shi, X. $; ($equal contribution), Back, S; Vallez, L.; Park, S.Y.; Siahrostami, S.; Zheng, X.; Norskov, J.K. ZnO as an Active and Selective Catalyst for Electrochemical Water Oxidation to Hydrogen Peroxide. ACS Catalysis. 2019, 9, 4593-4599.

7. Park, S.Y. $; Abroshan, H. $; Shi, X. $; ($equal contribution), Jung, H.S.; Siahrostami, S.; Zheng, X. CaSnO3: An Electrocatalyst for Two-Electron Water Oxidation Reaction to Form H2O2. ACS Energy Lett. 2019, 4, 352-357.

8. Kim, J. K.$; Shi, X.$; ($equal contribution), Jeong, M. J.; Park, J.; Han, H. S., Kim, S. H.; Guo, Y.; Heinz, T. F.; Fan, S.; Lee, C.-L.; Park, J. H.; Zheng, X. Enhancing Mo:BiVO4 Solar Water Splitting with Patterned Au Nanospheres by Plasmon-Induced Energy Transfer. Advanced Energy Materials, 2017, 1701765.

9. Shi, X.; Choi, I. Y.; Zhang, K.; Kwon, J.; Kim, D.Y.; Lee, J.K.; Oh, S.H.; Kim, J. K.; Park. J. H. Efficient photoelectrochemical hydrogen production from bismuth vanadate-decorated tungsten trioxide helix nanostructures. Nature Communications, 2014, 5, 4775. （ESI highly cited）

10. Shi, X.; Zhang, K.; Shin, K.; Ma, M.; Kwon, J.; Chio, I.T.; Kim, J. K.; Kim, H.K.; Wang, D.H.; Park, J. H. Unassisted photoelectrochemical water splitting beyond 5.7% solar-to-hydrogen conversion efficiency by a wireless monolithic photoanode/dye-sensitised solar cell tandem device. Nano Energy, 2015, 13, 182–191.

11. Shi. X., Cai, L., Choi, I.Y., Zheng, X., Park, J.H., Epitaxial growth of WO3 nanoneedles achieved using a facile flame surface treatment process engineering of hole transport and water oxidation reactivity, Journal of Materials Chemistry A, 2018, 6, 19542.

12. Pan, M.$; Shi, X.$; ($equal contribution), Lyu, F.; Levy-Wendt, B.; Zheng, X.; Tang, S.; Encapsulation of single nanoparticle in fast-evaporating micro-droplets prevents particle agglomeration in nanocomposites. ACS Applied Materials & Interfaces, 2017, 9, 26602–26609.

13. Shi, X.; Herraiz-Cardona, I.; Bertoluzzi, L.; Lopez-Varo, P.; Bisquert, J.; Park, J. H.; Gimenez, S. Understanding the synergistic effect of WO3–BiVO4 heterostructures by impedance spectroscopy. Physical Chemistry Chemical Physics, 2016, 18, 9255-9261.

14. Shi, X.; Cai, L.; Ma, M.; Zheng, X.; Park, J. H. General characterization methods for photoelectrochemical cells for solar water splitting. Review Article, Chemsuschem, 2015, 8, 3192–3203.

15. Shi, X.; Zhang, K.; Park, J. H. Understanding the positive effects of (Co–Pi) co-catalyst modification in inverse-opal structured α-Fe2O3-based photoelectrochemical cells. International Journal of Hydrogen Energy, 2013, 38, 12725–12732.

16. Zhang, K.$; Shi, X.$; ($equal contribution) Kim, J. K, Lee, J. S.; Park J. H. Inverse opal structured α-Fe2O3 on graphene thin films: enhanced photo-assisted water splitting. Nanoscale, 2013, 5, 1939-1944.

17. Shi, X.; Zhang, K.; Shin, K.; Moon, J. H.; Lee, T. -W.; Park, J. H. Constructing inverse opal structured hematite photoanodes via electrochemical process and their application to photoelectrochemical water splitting. Physical Chemistry Chemical Physics, 2013, 15, 11717-11722.

专利：

(1) Title: Light-driven Fuel Cell for Two-side Photoelectrochemical Production of Hydrogen Peroxide with Simultaneous Electricity Output

Country: United States; Case Status: Docket Generated; Filing Date: 2/18/2018

Lumen Ref.: S17-462/PROV; Application No: 62/631899;

(2) Title: ZnO as an active and selective catalyst for eletrochemical water oxidation to hydrogen peroxide

Country: United States; Case Status: Docket Generated

Lumen Ref. S18-364 /PROV;