Dr. Junhua Li
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Dr. Junhua Li

Professor
Tsinghua University, China

Highest Degree
Ph.D. in Nuclear Fuel Cycle and Material from China Institute of Atomic Energy, China

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Biography

Dr. Junhua Li is working as Professor at School of Environment, Tsinghua University. He obtained his PhD in Nuclear Fuel Cycle and Material from China Institute of Atomic Energy in 2001. His area of research interest related to Environmental Catalysis and Adsorbent Materials, Design and Develop the new Environmental Catalysts for Removal of NOx, VOC and Particulate Matter from both Mobile and Stationary sources of Emission (combustion of coal, gas and liquid fuels), and Development of new Sorbent Materials for Adsorption of NOx and SO2 and Hg in Air Pollution Control, Observation of Air Pollution Complex and Formation Mechanism. He also worked as Assistant Engineering at China Institute of Atomic Energy, Postdoctoral of School of Environment, and Associate Professor at Tsinghua University. He is member of editorial board in journals and Vice Chairman of IEEE Green Power Generation Connections. He is member of Professional Committee of Catalysis in Chinese Chemistry Society, Power Plant Air Pollution Control Committee, China EPA, Thermal Power Environmental Protection Center Committee of Pollution Prevention and Control, China Energy Research, State Council on Energy Strategy, Committee Member of Atmospheric Components, Chinese Meteorological Society, and professional member of Society of Automotive Engineering, USA. He also received the first prize of Environmental Science and Technology in China, the 10th Guanghua Engineering Science and Technology Prize, Youth award, National Science Fund for Distinguished Young Scholars, First-Class Award of Science &Technology, MoE China, 5th Young Scientific Award of Chines Environmental Society, and Outstanding postdoctoral prize in Tsinghua University. In the past 12 years, he has undertaken and took part in numerous past and ongoing projects, among them there are 7 projects granted by National Natural Science Foundation of China (NSFC), 6 projects granted by Ministry of Science and Technology (MOST), and others are granted by National famous industry companies and International Companies. He is co-authored of 175 peer-reviewed papers published in peer reviewed scientific journals as well as 76 reports in international conference proceedings, and owned18 patents.

Area of Interest:

Environmental Sciences
100%
Environmental Catalysis
62%
Adsorbents
90%
Air Pollution Control
75%
Climate Change
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Yang, S.J., F.H. Qi, Y. Liao, S.C. Xiong and Y. Lan et a., 2015. Dual effect of Sulfation on the selective catalytic reduction of NO with NH3 over MnOx/TiO2: Key factor of NH3 distribution. Ind. Eng. Chem. Res., 53: 5810-5819.
  2. Su, W., H. Chang, Y. Peng, C. Zhang and J. Li, 2015. Reaction pathway investigation on the selective catalytic reduction of NO with NH3 over Cu/SSZ-13 at Low temperatures. Environ. Sci. Technol., 49: 467-473.
    CrossRef  |  
  3. Peng, Y., W. Yu, W. Su, X. Huang and J. Li, 2015. An experimental and DFT study of the adsorption and oxidation of NH 3 on a CeO2 catalyst modified by Fe, Mn, La and Y. Catalysis Today, 242: 300-307.
    CrossRef  |  
  4. Peng, Y., W. Si, J. Li, J. Crittenden and J. Hao, 2015. Experimental and DFT studies on Sr-doped LaMnO3 catalysts for NO x storage and reduction. Catalysis Sci. Technol., 5: 2478-2485.
    CrossRef  |  
  5. Peng, Y., J. Li, W. Si, X. Li and W. Shi et al., 2015. Ceria promotion on the potassium resistance of MnOx/TiO 2 SCR catalysts: An experimental and DFT study. Chem. Eng. J., 269: 44-50.
    CrossRef  |  
  6. Peng, Y., J. Li, W. Si, J. Luo and Y. Wang et al., 2015. Deactivation and regeneration of a commercial SCR catalyst: Comparison with alkali metals and arsenic. Applied Catalysis B: Environ., 168: 195-202.
    CrossRef  |  
  7. Liu, C., Q.X. Ma, B.W. Chu, Y.C. Liu and H. He et al., 2015. Effect of aluminium dust on secondary organic aerosol formation in m-xylene/NOx photo-oxidation. Sci. China Earth Sci., 58: 245-254.
    CrossRef  |  Direct Link  |  
  8. Bai, B., J. Li and J. Hao, 2015. 1D-MnO2, 2D-MnO2 and 3D-MnO2 for low-temperature oxidation of ethanol. Applied Catalysis B: Environ., 164: 241-250.
    CrossRef  |  
  9. Zhang, X.Y., Z.G. Li, Y. Peng, W.K. Su, X.X. Sun and J.H. Li, 2014. Investigation on a novel CaO-Y2O3 sorbent for efficient CO2 mitigation. Chem. Eng. J., 243: 297-304.
    CrossRef  |  
  10. Yang, S.J., Y.W. Fu, Y. Liao, S.C. Xiong, Z. Qu, N.Q. Yan and J.H. Li, 2014. Competition of selective catalytic reduction and non-selective catalytic reduction over MnOx/TiO2 for NO removal: The relationship between gaseous NO concentration and N2O selectivity. Catal Sci. Technol., 4: 224-232.
    Direct Link  |  
  11. Yang, S.J., Y. Liao, S.C. Xiong, F.H. Qi, H. Dang, X. Xiao and J.H. Li, 2014. N2 selectivity of NO reduction by NH3 over MnOx-CeO2: Mechanism and key factors. J. Phys. Chem. C, 118: 21500-21508.
    Direct Link  |  
  12. Yang, S.J., S.C. Xiong, Y. Liao and F.H. Qi et al., 2014. Mechanism of N2O formation during the low-temperature selective catalytic reduction of NO with NH3 over Mn-Fe Spinel. Environ. Sci. Technol., 48: 10354-10362.
    CrossRef  |  
  13. Peng, Y., J.H. Li, X. Huang, X. Li and W.K. Su et al., 2014. Deactivation mechanism of potassium on the V2O5/CeO2 catalysts for SCR reaction: Acidity, reducibility and adsorbed-NOx. Environ. Sci. Technol., 48: 4515-4520.
    Direct Link  |  
  14. Peng, Y., C.Z. Wang and J.H. Li, 2014. Structure-activity relationship of VOx/CeO2 nanorod for NO removal with ammonia. Applied Catal B-Environ., 144: 538-546.
    CrossRef  |  
  15. Ma, L., D.S. Wang, J.H. Li, B.Y. Bai, L.X. Fu and Y.D. Li, 2014. Ag/CeO2 nanospheres: Efficient catalysts for formaldehyde oxidation. Applied Catal B-Environ., 148: 36-43.
    CrossRef  |  
  16. Ma, L. Y.S. Cheng, C. Giovanni, R.W. McCabe, L.X. Fu and J.H. Li, 2014. In situ DRIFTS and temperature-programmed technology study on NH3-SCR of NOx over Cu-SSZ-13 and Cu-SAPO-34 catalysts. Applied Catal B-Environ., 156: 428-437.
    Direct Link  |  
  17. Liu, Z.M., S.X. Zhang, J.H. Li and L. Ma, 2014. Promoting effect of MoO3 on the NOx reduction by NH3 over CeO2/TiO2 catalyst studied with in situ DRIFTS. Applied Catal B-Environ., 144: 90-95.
    CrossRef  |  
  18. Liu, Z.M., S.X. Zhang and J.H. Li, 2014. Novel V2O5-CeO2/TiO2 catalyst with low vanadium loading for the selective catalytic reduction of NOx by NH3. Applied Catal B-Environ., 158: 11-19.
    CrossRef  |  
  19. Liu, Z.M., J.Z. Zhu and J.H. Li, 2014. Novel Mn-Ce-Ti mixed-oxide catalyst for the selective catalytic reduction of NOx with NH3. ACS Applied Mater. Inter., 6: 14500-14508.
    Direct Link  |  
  20. Chu, B.W., K. Wang, H. Takekawa, Y.C. Liu and J.H. Li, 2014. Hygroscopicity of particles generated from photooxidation of alpha-pinene under different oxidation conditions in the presence of sulfate seed aerosols. J. Environ. Sci. China, 26: 129-139.
    CrossRef  |  
  21. Chu, B., Y. Liu, J. Li, H. Takekawa and J. Liggio et al., 2014. Decreasing effect and mechanism of FeSO4 seed particles on secondary organic aerosol in α-pinene photooxidation. Environ. Pollut., 193: 88-93.
    CrossRef  |  Direct Link  |  
  22. Chang, H., J. Li, W. Su, Y. Shao and J. Hao, 2014. A novel mechanism for poisoning of metal oxide SCR catalysts: Base-acid explanation correlated with redox properties. Chem. Commun., 50: 10031-10034.
    CrossRef  |  
  23. Bai, Y. and J.H. Li, 2014. Positive effects of K+ ions on three-dimensional mesoporous Ag/Co3O4 catalyst for HCHO oxidation. ACS Catal, 4: 2753-2762.
    Direct Link  |  
  24. Arandiyan, H., Y. Peng, C.X. Liu, H.Z. Chang and J.H. Li, 2014. Effects of noble metals doped on mesoporous LaAlNi mixed oxide catalyst and identification of carbon deposit for reforming CH4 with CO2. J. Chem. Technol. Biot., 89: 372-381.
    CrossRef  |  
  25. Arandiyan, H., H.X. Dai, J.G. Deng, Y. Wang and H.Y. Sun et al., 2014. Three-dimensionally ordered macroporous La0.6Sr0.4MnO3 supported Ag nanoparticles for the combustion of methane. J. Phys. Chem. C, 118: 14913-14928.
    CrossRef  |  
  26. Yang, S.J., C.Z. Wang, L. Ma, Y. Peng and Z. Qu et al., 2013. Substitution of WO3 in V2O5/WO3-TiO2 by Fe2O3 for selective catalytic reduction of NO with NH3. Catalysis Sci. Technol., 3: 161-168.
    Direct Link  |  
  27. Yang, S.J., C.X. Liu, H.Z. Chang, L. Ma and Z. Qu et al., 2013. Improvement of the activity of gamma-Fe2O3 for the selective catalytic reduction of NO with NH3 at high temperatures: NO reduction versus NH3 oxidization. Ind. Eng. Chem. Res., 52: 5601-5610.
    CrossRef  |  Direct Link  |  
  28. Wang, C.Z., S.J. Yang, H.Z. Chang, Y. Peng and J.H. Li, 2013. Structural effects of iron spinel oxides doped with Mn, Co, Ni and Zn on selective catalytic reduction of NO with NH3. J. Mol. Catalysis a-Chem., 376: 13-21.
    CrossRef  |  
  29. Wang, C.Z., S.J. Yang, H.Z. Chang, Y. Peng and J.H. Li, 2013. Dispersion of tungsten oxide on SCR performance of V2O5-WO3/TiO2: Acidity, surface species and catalytic activity. Chem. Eng. J., 225: 520-527.
    CrossRef  |  
  30. Rui, R.Y., X. Gao, K.F. Cen and J.H. Li, 2013. Relationship between structure and performance of a novel cerium-niobium binary oxide catalyst for selective catalytic reduction of NO with NH3. Applied Catal B-Environ., 142: 290-297.
    CrossRef  |  
  31. Peng, Y., R.Y. Rui, X.Y. Zhang and J.H. Li, 2013. The relationship between structure and activity of MoO3-CeO2 catalysts for NO removal: influences of acidity and reducibility. Chem. Commun., 49: 6215-6217.
    Direct Link  |  
  32. Peng, Y., K. Li and J.H. Li, 2013. Identification of the active sites on CeO2-WO3 catalysts for SCR of NOx with NH3: An in situ IR and Raman spectroscopy study. Applied Catal B-Environ., 140: 483-492.
    CrossRef  |  
  33. Peng, Y., C.X. Liu, X.Y. Zhang and J.H. Li, 2013. The effect of SiO2 on a novel CeO2-WO3/TiO2 catalyst for the selective catalytic reduction of NO with NH3. Applied Catal B-Environ., 140: 276-282.
    CrossRef  |  
  34. Peng, Y. and J.H. Li, 2013. Ammonia adsorption on graphene and graphene oxide: A first-principles study. Frontiers Environ. Sci. Eng., 7: 403-411.
    CrossRef  |  
  35. Ma, L., Y.S. Cheng, G. Cavataio, R.W. McCabe, L.X. Fu and J.H. Li, 2013. Characterization of commercial Cu-SSZ-13 and Cu-SAPO-34 catalysts with hydrothermal treatment for NH3-SCR of NOx in diesel exhaust. Chem. Eng. J., 225: 323-330.
    CrossRef  |  
  36. Liu, Z.M., Y. Yi, J.H. Li, S.I. Woo, B.Y. Wang, X.Z. Cao and Z.X. Li, 2013. A superior catalyst with dual redox cycles for the selective reduction of NOx by ammonia. Chem. Commun., 49: 7726-7728.
    Direct Link  |  
  37. Liu, Z.M., J.H. Li, S.I. Woo and H. Hu, 2013. Density functional theory studies of NO and NO2 adsorption on Al2O3 supported SnO2 cluster. Catal Lett., 143: 912-918.
    CrossRef  |  
  38. Liu, C.X., S.J. Yang, L. Ma, Y. Peng, H. Arandiyan, H.Z. Chang and J.H. Li, 2013. Comparison on the performance of alpha-Fe2O3 and gamma-Fe2O3 for selective catalytic reduction of nitrogen oxides with ammonia. Catal Lett., 143: 697-704.
    CrossRef  |  
  39. Liu, C.X., L. Chen, H.Z. Chang, L. Ma, Y. Peng, H. Arandiyan and J.H. Li, 2013. Characterization of CeO2-WO3 catalysts prepared by different methods for selective catalytic reduction of NOx with NH3. Catal Commun., 40: 145-148.
    Direct Link  |  
  40. Li, J.H., H. He, C. Hu and J.C. Zhao, 2013. The abatement of major pollutants in air and water by environmental catalysis. Frontiers Environ. Sci. Eng., 7: 302-325.
    CrossRef  |  
  41. Li, J.H. and S.B. Deng, 2013. Advanced materials: Adsorbent and catalyst for environmental application. Frontiers Environ. Sci. Eng., 7: 301-301.
    Direct Link  |  
  42. Chu, B.W., J.M. Hao, J.H. Li, H. Takekawa, K. Wang and J.K. Jiang, 2013. Effects of two transition metal sulfate salts on secondary organic aerosol formation in toluene/NO (x) photooxidation. Frontiers Environ. Sci. Eng., 7: 1-9.
    Direct Link  |  
  43. Chang, H.Z., X.Y. Chen, J.H. Li, L. Ma and C.Z. Wang et al., 2013. Improvement of activity and SO2 tolerance of sn-modified MnOx-CeO2 Catalysts for NH3-SCR at low temperatures. Environ. Sci. Technol., 47: 5294-5301.
  44. Chang, H.Z., M.T. Jong, C.Z. Wang, R.Y. Rui, Y. Du, J.H. Li and M. Hao, 2013. Design Strategies for P-containing fuels adaptable ceo2-MoO3 catalysts for DeNO(x): Significance of phosphorus resistance and N-2 selectivity. Environ. Sci. Technol., 47: 11692-11699.
    Direct Link  |  
  45. Chang, H.Z., J.H. Li, L. Yuan, Y. Chen and H.X. Dai et al., 2013. Mn-doped CeO2-WO3 catalysts for NH3-SCR of NOx: Effects of SO2 and H-2 regeneration. Catal Today, 201: 139-144.
    CrossRef  |  
  46. Chang, H., L. Ma, S. Yang, J. Li, L. Chen, W. Wang and J. Hao, 2013. Comparison of preparation methods for ceria catalyst and the effect of surface and bulk sulfates on its activity toward NH 3-SCR. J. Hazardous Mater., 262: 782-788.
    CrossRef  |  
  47. Bai, B.Y., H. Arandiyan and J.H. Li, 2013. Comparison of the performance for oxidation of formaldehyde on nano-Co3O4, 2D-Co3O4 and 3D-Co3O4 catalysts. Applied Catal B-Environ., 142: 677-683.
    CrossRef  |  
  48. Arandiyan, H., H.X. Dai, J.G. Deng, Y.X. Liu and B.Y. Bai et al., 2013. Three-dimensionally ordered macroporous La0.6Sr0.4MnO3 with high surface areas: Active catalysts for the combustion of methane. J. Catal, 307: 327-339.
    Direct Link  |  
  49. Arandiyan, H., H.X. Dai, J.G. Deng, Y. Wang, S.H. Xie and J.H. Li, 2013. Dual-templating synthesis of three-dimensionally ordered macroporous La0.6Sr0.4MnO3-supported Ag nanoparticles: Controllable alignments and super performance for the catalytic combustion of methane. Chem. Commun., 49: 10748-10750.
    Direct Link  |  
  50. Yang, S.J., J.H. Li, C.Z. Wang, J.H. Chen and L. Ma et al., 2012. Fe-Ti spinel for the selective catalytic reduction of NO with NH3: Mechanism and structure-activity relationship. Applied Catalysis B: Environ., 117: 73-80.
    CrossRef  |  
  51. Yang, S.J., C.Z. Wang, J.H. Chen, Y. Peng and L. Ma et al., 2012. A novel magnetic Fe-Ti-V spinel catalyst for the selective catalytic reduction of NO with NH3 in a broad temperature range. Catalysis Sci. Technol., 2: 915-917.
    Direct Link  |  
  52. Peng, Y., Z.M. Liu, X.W. Niu, L. Zhou, C.W. Fu, H. Zhang, J.H. Li and W. Han, 2012. Manganese doped CeO2-WO3<.sub> catalysts for the selective catalytic reduction of NOx with NH3: An experimental and theoretical study. Catalysis Commun., 19: 127-131.
    CrossRef  |  
  53. Peng, Y., J.H. Li, W.B. Shi, J.Y. Xu and J.M. Hao, 2012. Design strategies for development of SCR catalyst: Improvement of alkali poisoning resistance and novel regeneration method. Environ. Sci. Technol., 46: 12623-12629.
    CrossRef  |  Direct Link  |  
  54. Peng, Y., J.H. Li, L. Chen, J.H. Chen, J. Han, H. Zhang and W. Han, 2012. Alkali metal poisoning of a CeO2-WO3 catalyst used in the selective catalytic reduction of NOx with NH3: An experimental and theoretical study. Environ. Sci. Technol., 46: 2864-2869.
    CrossRef  |  
  55. Ma, L., J.H. Li, Y.S. Cheng, C.K. Lambert and L.X. Fu, 2012. Propene poisoning on three typical fe-zeolites for SCR of NOx with NH3: From mechanism study to coating modified architecture. Environ. Sci. Technol., 46: 1747-1754.
    Direct Link  |  
  56. Ma, L., J.H. Li, H. Arandiyan, W.B. Shi, C.X. Liu and L.X. Fu, 2012. Influence of calcination temperature on Fe/HBEA catalyst for the selective catalytic reduction of NOx with NH3. Catalysis Today, 184: 145-152.
    CrossRef  |  
  57. Ma, L., H.Z. Chang, S.J. Yang, L. Chen, L.X. Fu and J.H. Li, 2012. Relations between iron sites and performance of Fe/HBEA catalysts prepared by two different methods for NH3-SCR original research article. Chem. Eng. J., 209: 652-660.
    CrossRef  |  
  58. Liu, Z.M., J.H. Li and S.I. Woo, 2012. Recent advances in the selective catalytic reduction of NOx by hydrogen in the presence of oxygen. Energy Environ. Sci., 5: 8799-8814.
    Direct Link  |  
  59. Liu, C.X., L. Chen, J.H. Li, L. Ma, H. Arandiyan, Y. Du, J.Y. Xu and J.M. Hao, 2012. Enhancement of activity and sulfur resistance of CeO2 Supported on TiO2-SiO2 for the selective catalytic reduction of NO by NH3. Environ. Sci. Technol., 46: 6182-6189.
    CrossRef  |  
  60. Huang, Z.W., X. Gu, Q.Q. Cao, P.P. Hu, J.M. Hao, J.H. Li and X.F. Tang, 2012. Catalytically active single-atom sites fabricated from silver particles. Angewandte Chemie-Int. Edn., 51: 4198-4203.
    CrossRef  |  
  61. Dai, Y., J.H. Li, Y. Peng and X.F. Tang, 2012. Effects of MnO2 crystal structure and surface property on the NH3-SCR reaction at low temperature. ACTA Physico-Chim. Sin., 28: 1771-1776.
    Direct Link  |  
  62. Chu, B.W., J.M. Hao, H. Takekawa, J.H. Li, K. Wang and J.K. Jiang, 2012. The remarkable effect of FeSO4 seed aerosols on secondary organic aerosol formation from photooxidation of alpha-pinene/NOx and toluene/NOx. Atmospheric Environ., 55: 26-34.
    CrossRef  |  
  63. Chang, H.Z., J.H. Li, X.Y. Chen, L. Ma, S.J. Yang, J.W. Schwank and J.M. Hao, 2012. Effect of Sn on MnOx-CeO2 catalyst for SCR of NOx by ammonia: Enhancement of activity and remarkable resistance to SO2. Catalysis Commun., 27: 54-57.
    CrossRef  |  
  64. Arandiyan, H., J.H. Li, L. Ma, S.M. Hashemnejad and M.Z. Mirzaei et al., 2012. Methane reforming to syngas over LaNixFe1−xO3 (0 ≤ x ≤ 1) mixed-oxide perovskites in the presence of CO2 and O2 original research article. J. Ind. Eng. Chem., 18: 2103-2114.
    CrossRef  |  
  65. Arandiyan, H. and J.H. Li, 2012. Catalytic CO2 reforming of methane over perovskite noble metals. Adv. Mate. Res., Vols., 356-360: 1070-1074.
    Direct Link  |  
  66. Yang, S.J., C.Z. Wang, J.H. Li, N.Q. Yan, L. Ma and H.Z. Chang, 2011. Low temperature selective catalytic reduction of NO with NH(3) over Mn-Fe spinel: Performance, mechanism and kinetic study. Applied Catalysis B: Environ., 110: 71-80.
    CrossRef  |  
  67. Wan, Q., L. Duan, K.B. He and J.H. Li, 2011. Removal of gaseous elemental mercury over a CeO2�WO3/TiO2 nanocomposite in simulated coal-fired flue gas. Chem. Eng. J., 170: 512-517.
    CrossRef  |  
  68. Wan, Q., L. Duan, J.H. Li and K.B. He, 2011. Deactivation performance and mechanism of alkali (earth) metals on V(2)O(5)-WO(3)/TiO(2) catalyst for oxidation of gaseous elemental mercury in simulated coal-fired flue gas. Catalysis Today, 175: 189-195.
    CrossRef  |  
  69. Ma, L., J.H. Li, R. Ke and L.X. Fu, 2011. Catalytic performance, characterization and mechanism study of Fe2 (SO4) 3/TiO2 catalyst for selective catalytic reduction of NOx by ammonia. J. Phys. Chem. C, 115: 7603-7612.
    Direct Link  |  
  70. Li, J.H., H.Z. Chang, L. Ma, J.M. Hao and R.T. Yang, 2011. Low-temperature selective catalytic reduction of NOx with NH3 over metal oxide and zeolite catalysts-A review. Catalysis Today, 175: 147-156.
    CrossRef  |  
  71. Chen, L., J.H. Li, W. Ablikim, J. Wang, H.Z. Chang, L. Ma, M.F. Ge and H. Arandiyan, 2011. CeO2�WO3 mixed oxides for the selective catalytic reduction of NOx by NH3 Over a wide temperature range. Catal Lett., 141: 1859-1864.
    CrossRef  |  
  72. Chen, L., J.H. Li, M.F. Ge, L. Ma and H.Z. Chang, 2011. Mechanism of selective catalytic reduction of NOx with NH3 over CeO2-WO3 catalysts. Chinese J. Catalysis, 32: 836-841.
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  73. Chen, L., J.H. Li and M.F. Ge, 2011. The poisoning effect of alkali metals doping over nano V2O5-WO3/TiO2 catalysts on selective catalytic reduction of NOx by NH3. Chem. Eng. J., 170: 531-537.
    CrossRef  |  
  74. Chen, J.H., W.B. Shi, X.Y. Zhang, H. Arandiyan, D. Li and J.H. Li, 2011. Roles of Li+ and Zr4+ cations in the catalytic performances of Co1-xMxCr2O4 (M = Li, Zr, x = 0�0.2) for methane combustion. Environ. Sci. Technol., 45: 8491-8497.
    CrossRef  |  
  75. Chen, J.H., W.B. Shi, S.J. Yang, H. Arandiyan and J.H. Li, 2011. Distinguished roles with various vanadium loadings of CoCr2�xVxO4 (x=0�0.20) for methane combustion. J. Phys. Chem. C, 115: 17400-17408.
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  76. Chen, J.H., W.B. Shi and J.H. Li, 2011. Catalytic combustion of methane over cerium-doped cobalt chromite catalysts. Catalysis Today, 175: 216-222.
    CrossRef  |  
  77. Wang, R.H. and J.H. Li, 2010. Effects of precursor and sulfation on OMS-2 catalyst for oxidation of ethanol and acetaldehyde at low temperatures. Environ. Sci. Technol., 44: 4282-4287.
    CrossRef  |  
  78. Tang, X.F., J.H. Li and J.M. Hao, 2010. Significant enhancement of catalytic activities of manganese oxide octahedral molecular sieve by marginal amount of doping vanadium. Catal Commun., 11: 871-875.
    CrossRef  |  
  79. Liu, Z.M., J.H. Li and J.M. Hao, 2010. Selective catalytic reduction of NOx with propene over SnO2/Al2O3 catalyst original research article. Chem. Eng. J., 165: 420-425.
    CrossRef  |  
  80. Liu, Z.M., J.H. Li and A.S.M. Junaid, 2010. Knowledge and know-how in improving the sulfur tolerance of deNOx catalysts. Catalysis Today, 153: 95-102.
    CrossRef  |  
  81. Lin, Q.C., J.H. Li, L. Ma and J.M. Hao, 2010. Selective catalytic reduction of NO with NH3 over Mn-Fe/USY under lean burn conditions. Catalysis Today, 151: 251-256.
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  82. Li, J.H., R.H. Zhu, Y.S. Cheng, C.K. Lambert and R.T. Yang, 2010. Mechanism of propene poisoning on Fe-ZSM-5 for selective catalytic reduction of NOx with ammonia. Environ. Sci. Technol., 44: 1799-1805.
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  83. Li, J.H., R.H. Wang and J.M. Hao, 2010. Role of lattice oxygen and lewis acid on ethanol oxidation over OMS-2 catalyst. J. Phys. Chem. C, 144: 10544-10550.
    CrossRef  |  
  84. Chen, L., J.H. Li, M.F. Ge and R.H. Zhu, 2010. Enhanced activity of tungsten modified CeO2/TiO2 for selective catalytic reduction of NOx with ammonia. Catalysis Today, 153: 77-83.
    Direct Link  |  
  85. Chen, L., J.H. Li and M.F. Ge, 2010. DRIFT study on cerium-tungsten/Titiania catalyst for selective catalytic reduction of NOx with NH3. Environ. Sci. Technol., 44: 9590-9596.
    CrossRef  |  
  86. Xu, S.C., J.H. Li, Y. Dong and J.M. Hao, 2009. Effects of support acidity on the reaction mechanisms of selective catalytic reduction of NO by CH4 in excess oxygen. Frontiers Environ. Sci. Eng. China, 3: 186-193.
    CrossRef  |  
  87. Wen, Y.R., X. Tang, J.H. Li, J.M. Hao, L.S. Wei and X.F. Tang, 2009. Impact of synthesis method on catalytic performance of MnOx�SnO2 for controlling formaldehyde emission. Catalysis Commun., 10: 1157-1160.
    CrossRef  |  
  88. Wei, L.S., J.H. Li and X.F. Tang, 2009. NOx storage at low temperature over MnOx-SnO2 binary metal oxide prepared through different hydrothermal process. Catal Lett., 127: 107-112.
  89. Wang, R.H. and J.H. Li, 2009. OMS-2 catalysts for formaldehyde oxidation: Effects of Ce and Pt on structure and performance of the catalysts. Catalysis Lett., 131: 500-505.
    CrossRef  |  
  90. Tang, X.F., J.M. Hao and J.H. Li, 2009. Complete oxidation of methane on Co3O4-SnO2 catalysts. Frontiers Environ. Sci. Eng. China, 3: 265-270.
    CrossRef  |  
  91. Tang, X.F., J.H. Li, L. Sun and J.M. Hao, 2009. Origination of N2O from NO reduction by NH3 over beta-MnO2 and alpha-Mn2O3. Applied Catal B: Environm., 99: 156-162.
    CrossRef  |  
  92. Lv, Z.F., J.M. Hao, J.H. Li and S. Wu, 2009. The reconstruction of carbon black Clusters particles in propylene ozone oxidation and light oxidation system. Chin. Phys. Soc., 1: 270-276.
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