部分已发表论文:

[23] Zhang, E., F. Wang, W. Zhai, K. Scott, X. Wang, and G. Diao, Efficient removal of nitrobenzene and concomitant electricity production by single-chamber microbial fuel cells with activated carbon air-cathode. Bioresource Technology, 2017. 229: p. 111-118.

[22] Cui, J., X. Wang, J. Zhang, X. Qiu, D. Wang, Y. Zhao, B. Xi, A.N. Alshawabkeh, and X. Mao, Disilicate-Assisted Iron Electrolysis for Sequential Fenton-Oxidation and Coagulation of Aqueous Contaminants. Environmental Science undefinedamp; Technology, 2017. 51(14): p. 8077-8084.

[21] Chen, Z., Y. Gu, K. Du, X. Wang*, W. Xiao, X. Mao, and D. Wang*, Enhanced electrocatalysis performance of amorphous electrolytic carbon from CO2 for oxygen reduction by surface modification in molten salt. Electrochimica Acta, 2017. 253: p. 248-256.

[20Li, H., S. Wang, X. Wang, N. Tang, S. Pan, and J. Hu, Catalytic oxidation of Hg 0 in flue gas over Ce modified TiO 2 supported Co-Mn catalysts: Characterization, the effect of gas composition and co-benefit of NO conversion. Vol. 202. 2017. 470-482.

[19] Zhang, Y., L. Wang, W. Han, X. Wang, Z. Guo, F. Peng, F. Yang, M. Kong, Y. Gao, J. Chao, D. Wu, B. Xu, and Y. Zhu, Nitrate removal, spatiotemporal communities of denitrifiers and the importance of their genetic potential for denitrification in novel denitrifying bioreactors. Bioresource Technology, 2017. 241.

[18] Zhang, E., F. Wang, Q. Yu, K. Scott, X. Wang, and G. Diao, Durability and regeneration of activated carbon air-cathodes in long-term operated microbial fuel cells. Journal of Power Sources, 2017. 360: p. 21-27.

[17] Wang, X.*, D. Li, X. Mao, E.H. Yu, K. Scott, E. Zhang, and D. Wang, Anion exchange polymer coated graphite granule electrodes for improving the performance of anodes in unbuffered microbial fuel cells. Journal of Power Sources, 2016. 330: p. 211-218.

[16] Wang, L.*, X. Wang, F. Yang, M. Kong, F. Peng, J. Chao, Y. Gao, D. Wu, Y. Zhu, and Y. Zhang, Nitrogen removal performance and ammonia- and nitrite-oxidizing bacterial community analysis of a novel industrial waste-based biofilter. Chemical Engineering Journal, 2016. 299: p. 156-166.

[15] Wang, Y., J. Hu, L. Wang, D. Shan, X. Wang*, Y. Zhang, X. Mao, L. Xing, and D. Wang, Acclimated sediment microbial fuel cells from a eutrophic lake for the in situ denitrification process. RSC Advances, 2016. 6(83): p. 80079-80085.

[14] Zhang, E., W. Zhai, Y. Luo, K. Scott, X. Wang, and G. Diao, Acclimatization of microbial consortia to alkaline conditions and enhanced electricity generation. Bioresource Technology, 2016. 211: p. 736-742.

[13] Wang, X., E.H. Yu, J. Horsfall, and K. Scott, Performance of the Direct Methanol Carbonate Fuel Cell Using Anion Exchange Materials and Non-Noble Metal Cathode Catalyst. Fuel Cells, 2013. 13(5): p. 817-821.

[12]X. Wang*, Z. M. Huang, Li, L., S.S. Huang, , E.H. Yu, K. Scott, Energy Generation from Osmotic Pressure Difference Between the Low and High Salinity Water by Pressure Retarded Osmosis, Journal of Technology Innovations in Renewable Energy, 1, 2012, 122-130.

[11] E.H. Yu* (导师一作,本人二作), X. Wang, U. Krewer, L. Li, K. Scott, Direct oxidation alkaline fuel cells: from materials to systems, Energy undefinedamp; Environmental Science, 5 (2012) 5668-5680.

[10] E.H. Yu*, R. Burkitt, X. Wang, K. Scott, Application of anion exchange ionomer for oxygen reduction catalysts in microbial fuel cells, Electrochemistry Communications, 21 (2012) 30-35.

[9] C. Xu*, X. Wang*, X. Wu, Y. Cao, K. Scott, A Composite Membrane of Caesium Salt of Heteropolyacids/Quaternary Diazabicyclo-Octane Polysulfone with Poly (Tetrafluoroethylene) for Intermediate Temperature Fuel Cells, Membranes, 2 (2012) 384-394.

[8] Y.C. Cao*, K. Scott*, X. Wang, Preparation of polytetrafluoroethylene porous membrane based composite alkaline exchange membrane with improved tensile strength and its fuel cell test, International Journal of Hydrogen Energy, 37 (2012) 12688-12693.

[7] C. Xu, X. Wu, X. Wang, M. Mamlouk, K. Scott*, Composite membranes of polybenzimidazole and caesium-salts-of-heteropolyacids for intermediate temperature fuel cells, Journal of Materials Chemistry, 21 (2011) 6014-6019.

[6] C. Xu, Y. Cao, R. Kumar, X. Wu, X. Wang, K. Scott*, A polybenzimidazole/sulfonated graphite oxide composite membrane for high temperature polymer electrolyte membrane fuel cells, Journal of Materials Chemistry, 21 (2011) 11359-11364.

[5] X. Wang*, C. Xu, B.T. Golding, M. Sadeghi, Y. Cao, K. Scott, A novel phosphoric acid loaded quaternary 1,4-diazabicyclo-[2.2.2]-octane polysulfone membrane for intermediate temperature fuel cells, International Journal of Hydrogen Energy, 36 (2011) 8550-8556.

[4] X.Wang*, M. Li, B.T. Golding, M. Sadeghi, Y. Cao, E.H. Yu, K. Scott, A polytetrafluoroethylene-quaternary 1,4-diazabicyclo-[2.2.2]-octane polysulfone composite membrane for alkaline anion exchange membrane fuel cells, International Journal of Hydrogen Energy, 36 (2011) 10022-10026.

[3] M. Mamlouk*, X. Wang, K. Scott, J.A. Horsfall, C. Williams, Characterization and application of anion exchange polymer membranes with non-platinum group metals for fuel cells, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 225 (2011) 152-160.

[2] Y.C. Cao*, C. Xu, X. Wu, X. Wang, L. Xing, K. Scott*, A poly (ethylene oxide)/graphene oxide electrolyte membrane for low temperature polymer fuel cells, Journal of Power Sources, 196 (2011) 8377-8382.

[1] Y.C. Cao*, X. Wang, M. Mamlouk, K. Scott*, Preparation of alkaline anion exchange polymer membrane from methylated melamine grafted poly(vinylbenzyl chloride) and its fuel cell performance, Journal of Materials Chemistry, 21 (2011) 12910-12916.