近年论文

      

  1. H. J. Fang, Z Wang, X. Z. Feng, W. J. Ji, C. T. Au, Highly efficient and selective electrosynthesis of urea via co-reduction of carbon dioxide and nitrate over TiNx catalyst, Chem. Eng. J. 486 (2024) 150178.

  2. H. J. Fang, C. H. Kuo, X. Z. Feng, W. J. Ji, C. T. Au, Durable and efficient urea electrosynthesis through carbon dioxide and nitrate over the defect-rich In2O3 nanotube, Green Chem. 26 (2024) 6812-6821.

  3. H. J. Fang, H. Guo, X. Z. Feng, Z. X. Chen, W. J. Ji, C. T. Au, Facile synthesis of defect-rich interfacial Mo/MoO2 for efficient peroxymonosulfate activation and refractory pollutants degradation, Environ. Pollution 361 (2024) 124788. 

  4. H. J. Fang, D. Jie, X. Z. Feng, W. J. Ji, C. T. Au, Highly efficient pollutants removal over Mo/Mo2C/CoAl-LDH heterostructure: photo-chemical co-driven peroxymonosulfate activation and singlet oxygen-dominated oxidative decomposition, J. Water Process Eng. 51 (2023) 103372.

  5. T. T. Chen, J. T. Chen, J. H. Wu, W. J. Song, S. H. Hu, X. Z. Feng, Z. X. Chen, E. X. Yuan, W. J. Ji, C.T. Au, Atomic-Layer-Deposition derived Pt subnano clusters on the (110) facet of hexagonal Al2O3 plates: Efficient for formic acid decomposition and water gas shift, ACS Catal. 13 (2023) 887-901.

  6. T. T. Chen, J. H. Wu, S. H. Hu, Q. Q. Xu, X. Z. Feng, W. J. Ji, C. T. Au, Atomic layer deposition of Pt fine clusters over the structurally defined SnO2 facets for efficient formic acid decomposition and H2 evolution, ACS Sustain. Chem. Eng. 11 (2023) 17224-17237.

  7. J. Ding, Z. S. Xu, H. J. Fang, X. Z. Feng, W. J. Ji, Selective hydrogenation of polyenes in biomass-derived cardanol over the trimetallic Ni-Co-Cu catalyst supported on morphologically controlled alumina, ACS Ind. Eng. Chem. Res. 62 (2023) 17440-17450.

  8. P. W. Xu, S. F. Zhao, T. T. Wang, W. J. Ji, Z. X. Chen, C. T. Au, A Pt/SnO2/rGO interface more capable of converting ethanol to CO2 in ethanol electro-oxidation: A detailed experimental/DFT study, J. Mater. Chem. A 10 (2022) 10150-10161. 

  9. T. T. Wang, Y. Han, P. W. Xu, X. Z. Feng, W. J. Ji, H. Arandiyan, In-situ generating highly efficient sites for multifunctional water splitting/Zn-air battery over hierarchically architectured Fe2Ni3 nanoalloys/N-incorporated carbon matrix, Chem. Eng. J. 450 (2022) 138245.

  10. H. J. Fang, Y. Han, X. Z. Feng, W. J. Ji, C. T. Au, S-scheme heterojunction g-C3N4/Ag/AgNCO for efficient tetracycline removal in a photo-assisted peroxymonosulfate system, Sep. Pur. Technol. 296 (2022) 121210. 

  11. T. T. Wang, Y. Wu, Y. Han, P. W. Xu, X. Z. Feng, H. Yang, W. J. Ji, T. Cheng, Hofmann-type metal-organic framework nanosheets for oxygen evolution, ACS Appl. Nano Mater. 4 (2021) 14161-14168.

  12. P. W. Xu, H. H. Wang, J. Liu, X. Z. Feng, W. J. Ji, C. T. Au, High-performance NixCo3-xO4/Ti3C2Tx-HT interfacial nanohybrid for electrochemical overall water splitting, ACS Appl. Mater. Interfaces 13 (2021) 34308-34319.

  13. Q. Su, H. H. Wang, L. L. Gu, W. J. Ji, C. T. Au, Fe-based catalyst derived from MgFe-LDH: Very efficient yet simply obtainable for hydrogen production via ammonia decomposition, Int. J. hydrogen Energy 46 (2021) 31122-31132.

  14. P. C. Wang, J. Liu, G. Liu, P. W. Xu, X. Z. Feng, W. J. Ji, Y. L. Gao, and C. T. Au, Precise tuning the CoMoOx/Al2O3 and CoMoSx/Al2O3 interfacial structures for efficient hydrodesulfurization of dibenzothiophene, Fuel 301 (2021) 121042.

  15. P. C. Wang, J. Liu, P. W. Xu, X. Z. Feng, W. J. Ji, Significant impact of γ-Al2O3 facet structure on the character and performance of surface Co-Mo sulfides for CO removal in H2 fuel via water gas shift, Appl. Sur. Sci. 539 (2021) 148230.

  16. J. Liu, P. C. Wang, P. W. Xu, Z. J. Xu, X. Z. Feng, W. J. Ji, H. Arandiyan, and C. T. Au, Sustainable acrylic acid making via acetic acid-formaldehyde condensation: The highly selective and durable VPO-TiO2 catalyst accomplished by VPO phase control and wet co-mechanical milling, ACS Sustain. Chem. Eng. 8 (2020) 18034-18043.

  17. Y. Q. Zeng, L. L. Gu, Y. N. Feng, W. Jiang, W. J. Ji, Morphologically uniform Pd/FexMn3-xO4-HP interfaces as the high-performance model catalysts for catalytic combustion of volatile organic compound, Appl. Sur. Sci. 528 (2020) 147006.

  18. J. Liu, P. C. Wang, P. W. Xu, Z. J. Xu, X. Z. Feng, W. J. Ji, H. Arandiyan, C. T. Au, How to achieve a highly selective yet simply available vanadium phosphorus oxide-based catalyst for sustainable acrylic acid production via acetic acid-formaldehyde condensation, ChemComm (Front Cover) 56 (2020) 1022-1025.

  19. J. Liu, P. W. Xu, P. C. Wang, Z. J. Xu, X. Z. Feng, W. J. Ji, and C. T. Au, Vanadium phosphorus oxide/siliceous mesostructured cellular foams: efficient and selective for sustainable acrylic acid production via condensation route, Sci. Rep. 9 (2019) 16988.

  20. W. Jiang, Y. N. Feng, Y. Q. Zeng, Y. Yao, L. L. Gu, H. C. Sun, W. J. Ji, H. Arandiyan, C. T. Au, Establishing high-performance Au/cobalt oxide interfaces for low-temperature benzene combustion, J. Catal. 375 (2019) 171.

  21. J. Liu, P. C. Wang, Y. N. Feng, Z. J. Xu, X. Z. Feng, W. J. Ji, C. T. Au, Precisely phase-modulated VPO catalysts with enhanced inter-phase conjunction for acrylic acid production through the condensation of acetic acid and formaldehyde, J. Catal. 374 (2019) 171.

  22. L. L. Gu, Y. Q. Zeng, Y. N. Feng, W. Jiang, W. J. Ji, H. Arandiyan, C. T. Au, How do structurally distinct Au/α-Fe2O3 interfaces determine surface OH/H2O reactivity, intermediate evolution, and product formation in low-temperature water-gas shift reaction, ChemCatChem 11 (2019) 2926.

  23. L. L. Gu, Q. Su, W. Jiang, Y. Yao, Y. J. Pang, W. J. Ji, C. T. Au, How do the unique Au/α-Fe2O3 interfacial structures determine activity in CO oxidation, Catal. Sci. Technol. 8 (2018) 5782.

  24. W. Jiang, W. J. Ji, C. T. Au, Surface/interfacial catalysis of (metal)/oxide system: Structure and performance control, ChemCatChem 10 (2018) 2125.

  25. Y. J. Pang, A. H. Zhong, Z. J. Xu, W. Jiang, L. L. Gu, X. Z. Feng, W. J. Ji, C. T. Au, How do the core-shell structure features impact on the activity/stability of the Co-based catalyst in dry reforming of methane? ChemCatChem 10 (2018) 2845.

  26. Y. J. Pang, Y. X. Dou, A. H. Zhong, W. Jiang, L. L. Gu, X. Z. Feng, W. J. Ji, C. T. AuNanostructured Ru-Co@SiO2: Highly efficient yet durable for CO2 reforming of methane with a desirable H2/CO ratio, Appl. Catal. A: Gen. 555 (2018) 27.

  27. Y. X. Dou, Y. J. Pang, L. L. Gu, Y. F. Ding, W. Jiang, X. Z. Feng, W. J. Ji, C. T. Au, Core-shell structured Ru-Ni@SiO2: Active for partial oxidation of methane with tunable H2/CO ratio, J. Eng. Chem. 27 (2018) 883.

  28. Q. Su, L. L. Gu, A. H. Zhong, Y. Yao, W. J. Ji, W. P. Ding, C. T. Au, Layered double hydroxide derived Mg2Al-LDO supported and K-modified Ru catalyst for hydrogen production via ammonia decomposition, Catal. Lett. 148 (2018) 894.

  29. W. Jiang, Y. J. Pang, L. L. Gu, Y. Yao, Q. Su, W. J. Ji, C.-T. Au, Structurally defined SnO2 substrates, nanostructured Au/SnO2 interfaces, and their distinctive behaviors in benzene and methanol oxidations, J. Catal. 349 (2017) 183.

  30. Q. Su, L. L. Gu, Y. Yao, J. Zhao, W. J. Ji, W. P. Ding, C.-T. Au, Layered double hydroxides derived Nix(MgyAlzOn) catalysts: Enhanced ammonia decomposition by hydrogen spillover effect, Appl. Catal. B: Environ. 201 (2017) 451.

  31. Y. Yao, L. L. Gu, W. Jiang, H. C. Sun, Q. Su, J. Zhao, W. J. Ji, C. T. Au, Enhanced low temperature CO oxidation by pretreatment: specialty of the Au-Co3O4 oxide interfacial structures, Catal. Sci. Technol. 6 (2016) 2349.

  32. X. Z. Feng, Y. Yao, Q. Su, L. Zhao, W. Jiang, W. J. Ji, C. T. Au, Vanadium pyrophosphate oxide: the role of preparation chemistry in determining renewable acrolein production from glycerol dehydration, Appl. Catal. B: Environ. 164 (2015) 32.

  33. Y. Yao, Q. Su, X. Z. Feng, B. Sun, W. J. Ji, C. T. Au, Active yet extremely durable Co3O4 spheroids of different texture without/with Au deposition for CO oxidation, Catal. Sci. Technol. 5 (2015) 1065.

  34. X. Z. Feng, B. Sun, Y. Yao, Q. Su, W. J. Ji, C. T. Au, Renewable production of acrylic acid and its derivative: new insights into the alsol condensation route over the vanadium phosporus oxides, J. Catal. 314 (2014) 132.

  35. J. F. Zhang, Y. L. Zhao, X. Z. Feng, M. Pan, W. J. Ji, C. T. Au, Na2HPO4-modified NaY nanocrystallites: efficient catalyst for acrylic acid production through lactic acid dehydrogenation, Catal. Sci. Technol. 4 (2014) 1380.

  36. J. F. Zhang, X. Z. Feng, Y. L. Zhao, W. J. Ji, C. T. Au, Sodium nitrate modified SBA-15 and fumed silica for efficient production of acrylic acid and 2,3-pentanedione from lactic acid, J. Ind. Eng. Chem. 20 (2014) 1353.

  37. B. Sun, L. Li, Z. Y. Fei, S. S. Gu, P. Lu, W. J. Ji, Prehydrolysis approach to direct synthesis of Fe, Al, Cr-incorporated SBA-15 with good hydrothermal stability and enhanced acidity, Microporous Mesoporous Mater. 186 (2014) 14.

  38. B. Sun, X. Z. Feng, Y. Yao, Q. Su, W. J. Ji, C. T. Au, Substantial pretreatment effect on CO oxidation over controllably synthesized Au/FeOx hollow nanostructures via hybrid Au/beta-FeOOH@SiO2 ACS Catal. 3 (2013) 3099.

  39. S. C. He, Z. Y. Fei, L. Li, B. Sun, X. Z. Feng, W. J. Ji, Synthesis and catalytic activity of M@SiO2 (M = Ag, Au, and Pt) nanostructures via “core to shell” and “shell then core” approaches, Chin. J. Catal. 34 (2013) 2098. (Dedicated to Professor Yi Chen on the occasion of his 80th birthday)

  40. L. Li, Y. Yao, B. Sun, Z. Y. Fei, H. Xia, J. Zhao, W. J. Ji, C. T. Au, Highly active and stable lanthanum-doped core-shell structured Ni@SiO2 catalysts for the partial oxidation of methane to syngas, ChemCatChem 5 (2013) 3781.

  41. 李雷,李彦兴,姚瑶,姚良宏,季伟捷,区泽棠,核壳结构纳米材料的创制及在催化化学中的应用,化学进展25 (2013) 1681.

  42. Z. Y. Fei, B. Sun, L. Zhao, W. J. Ji, C. T. Au, Strong morphological effect of Mn3O4 nanocrystallites on catalytic activity of Mn3O4 and Au/Mn3O4in benzene combustion, Chem. Eur. J. 19 (2013) 6480.

  43. P. Lu, Z. Y. Fei, L. Li, X. Z. Feng, W. J. Ji, W. P. Ding, Y. Chen, W. M. Yang, Z. K. Xie, Effects of controlled SiO2deposition and phosphorus and nickel doping on surface acidity and diffusivity of medium and small sized HZSM-5 for para-selective alkylation of toluene by methanol, Appl. Catal. A: Gen. 435 (2013) 302.

  44. Z. Y. Fei, P. Lu, X. Z. Feng, B. Sun, W. J. Ji, Geometrical effect of CuO nanostructures on catalytic benzene combustion, Catal. Sci. Technol. 2 (2012) 1705.

  45. Z. Y. Fei, S. C. He, L. Li, W. J. Ji, C. T. Au, Morphology-directed synthesis of Co3O4 nanotubes based on modified Kirkendall effect and its application in CH4 combustion, Chem. Commun. 48 (2012) 853.

  46. L. Li, S. C. He, Y. Y. Song, J. Zhao, W. J. Ji, C. T. Au, Fine tunable Ni@porous silica core-shell nanocatalysts: Synthesis, characterization, and catalytic properties in partial oxidation of methane to syngas, J. Catal. 288 (2012) 54.

  47. L. Li, P. Lu, Y. Yao, W. J. Ji, Silica-encapsulated bimetallic Co-Ni nanoparticles as a novel catalyst for partial oxidation of methane to syngas, Catal. Commun. 26 (2012) 72.

  48. T. B. Shi, H. Li, L. H. Yao, W. J. Ji, C. T. Au, Ni-Co-Cu supported on pseudoboehmite-derived Al2O3: Highly efficient catalysts for the hydrogenation of organic functional groups, Appl. Catal. A: Gen. 425-426 (2012) 68.

  49. J. F. Zhang, Y. L. Zhao, M. Pan, X. Z. Feng, W. J. Ji, C. T. Au, Efficient acrylic acid production through bio lactic acid dehydration over NaY zeolite modified by alkali phosphates, ACS Catal. 1 (2011) 32.

  50. L. H. Yao, T. B. Shi, Y. X. Li, J. Zhao, W. J. Ji, C. T. Au, Core-shell structured nickel and ruthenium nanoparticles: Very active and stable catalysts for the generation of COx-free hydrogen via ammonia decomposition, Catal. Today 164 (2011) 112.

  51. Y. X. Li, L. H. Yao, S. Q. Liu, J. Zhao, W. J. Ji, C. T. Au, Cs-modified iron nanoparticles encapsulated in microporous and mesoporous SiO2 for COx-free H2 production via ammonia decomposition, Catal. Today 160 (2011) 79.

  52. Y. X. Li, L. H. Yao, Y. Y. Song, S. Q. Liu, J. Zhao, W. J. Ji, C. T. Au, Core-shell structured microcapsular-like Ru@SiO2reactor for efficient generation of COx-free hydrogen through ammonia decomposition, Chem. Commun. 46 (2010) 5298.

  53. S. Q. Liu, M. J. Xie, Y. X. Li, X. F. Guo, W. J. Ji, W. P. Ding, C. T. Au, Novel sea urchin-like hollow core shell SnO2 superstructures: Facile synthesis and excellent ethanol sensing performance, Sensors & Actuators B-Chem. 151 (2010) 229.

  54. L. H. Yao, Y. X. Li, J. Zhao, W. J. Ji, C. T. Au, Core-shell structured nanoparticles (M@SiO2, Al2O3, MgO; M=Fe, Co, Ni, Ru) and their application in COx-free H2 production via NH3 decomposition, Catal. Today 158 (2010) 401.

  55. Y. X. Li, S. Q. Liu, L. H. Yao, W. J. Ji, C. T. Au, Core-shell structured iron nanoparticles for the generation of COx-free hydrogen via ammonia decomposition, Catal. Commun.11 (2010) 368.

  56. L. Li, H. Li, C. Jing, X. C. Wang, W. J. Ji, Y. Pan, T. van der Kneep, S. van der Roland, Au C. T., Surface cobalt silicate and CoOx cluster anchored to SBA-15: Highly efficient for cyclohexane partial oxidation, Catal. Lett. 136 (2010) 20.

  57. S. Q. Liu, Y. X. Li, M. J. Xie, X. F. Guo, W. J. Ji, W. P. Ding, One-pot synthesis of intestine-like SnO2/TiO2 hollow nanostructures, Mater. Lett. 64 (2010) 402.

  58. S. Q. Liu, Y. X. Li, M. J. Xie, X. F. Guo, W. J. Ji, W. P. Ding, Y. Chen, Novel hierarchical urchin-like hollow SnO2nanostructures with enhanced gas sensing performance, J. Nanosci. Nanotech. 10 (2010) 6275.

  59. S. Q. Liu, M. J. Xie, Y. X. Li, X. F. Guo, W. J. Ji, W. P. Ding, Synthesis and selective gas-sensing properties of hierarchically porous intestine-like SnO2 hollow nanostructures, Mater. Chem. Phys. 123 (2010) 109.

  60. S. Q. Liu, M. J. Xie, Y. X. Li, X. F. Guo, W. J. Ji, W. P. Ding, A simple H2O2-assisted method for the synthesis of intestine-likeSnO2 nanostructures at room temperature, Chem. Lett. 38 (2009) 614.

  61. L. Li, C. Jing, X. C. Wang, W. J. Ji, Y. Pan, T. van der Kneep, S. van der Roland, C. T. Au, Cyclohexane oxidation over size-uniform Au nanoparticles (SBA-15 hosted) in a continuously stirred tank reactor under mild conditions, Catal. Lett. 129 (2009) 303.

  62. L. Li, W. J. Ji, C. T. Au, Gold nanoparticles supported on mesoporous silica and their catalytic application, Prog. Chem. 21 (2009) 1741.

  63. X. J. Yang, R. M. Feng, W. J. Ji, C. T. Au, Characterization and evaluation of Mo-V-Te-Nb mixed metal oxide catalysts fabricated via hydrothermal process with ultrasonic pretreatment for propane partial oxidation, J. Catal. 253 (2008) 57.

  64. Z. Y. Zhang, T. B. Shi, C. Z. Jia, W. J. Ji, Y. Chen, Adsorptive removal of aromatic organosulfur compounds over the modified Na-Y zeolites, Appl. Catal. B-Environ. 82 (2008) 1.

  65. Q. Jiang, J. Zhao; X. K. Li, W. J. Ji, Z. B. Zhang, C. T. Au, Water modification of PEG-derived VPO for the partial oxidation of propane, Appl. Catal. A-Gen. 341 (2008) 70.

  66. X. J. Yang, W. F. Zhang, R. M. Feng, W. J. Ji, C. T. Au, A comparison study on the structure and performance of Mo-V-O and Mo-V-Te-O catalysts synthesized hydrothermally with ultrasonic pretreatment for propane oxidation, Catal. Lett. 124 (2008) 288.

  67. H. J. Wei, Y. Cao, W. J. Ji, C. T. Au, Lattice oxygen of La1-xSrxMO3 (M=Mn, Ni) and LaMnO3-aFb perovskite oxides for the partial oxidation of methane to synthesis gas, Catal. Commun. 9 (2008) 2509.

  68. R. M. Feng, X. J. Yang, W. J. Ji, C. T. Au, Hydrothermal synthesis of highly stable mesoporous ZrO2-Y2O3 (ZYO) and CeO2-ZrO2-Y2O(CZYO) by means of simple inorganic salts in aqueous medium, Mater. Chem. Phys.107 (2008) 132.

  69. R. M. Feng, X. J. Yang, H. Y. Zhu, X. D. Gu, W. J. Ji, Y. Chen, S. Han, H. Hibst, The study on the source of Te and the dispersion of TeO2 in fabricating Mo-V-Te and Mo-V-Te-Nb mixed metal oxide catalysts for propane partial oxidation, J. Mole. Catal. A 267 (2007) 245.

  70. R. M. Feng, X. J. Yang, W. J. Ji, Y. Chen, C. T. Au, VPO catalysts supported on H3PO4-treated ZrO2 highly active for n-butane oxidation, J. Catal. 246 (2007) 166.

  71. X. K. Li, W. J. Ji, J. Zhao, C. T. Au, n-Butane oxidation over VPO catalysts supported on SBA-15, J. Catal. 238 (2006) 232.

  72. X. K. Li, W. J. Ji, J. Zhao, Z. B. Zhang, Y. Chen, C. T. Au, S. Han, H. Hibst, Effect of vanadium substitution of in the cesium salts of Keggin-type heteropolyacids on propane partial oxidation, J. Catal. 237 (2006) 58.

  73. X. K. Li, W. J. Ji, J. Zhao, Z. B. Zhang, C. T. Au, A comparison study on the partial oxidation of n-butane and propane over VPO catalysts supported on SBA-15, MCM-41, and fumed SiO2, Appl. Catal. A: Gen. 306 (2006) 8.

  74. X. K. Li, W. J. Ji, J. Zhao, S. J. Wang, C. T. Au, Ammonia decomposition over Ru and Ni catalysts supported on fumed SiO2, MCM-41, and SBA-15, J. Catal. 236 (2005) 181.

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