2015/12/24 上午10:24:28 星期四
特别鸣谢86361班校友捐赠制作环境与生物工程学院网站
师资队伍

杨士建

杨士建

个人简介:

  教授博士生导师性别:男出生年月:19791

  电子邮件:yangshijiangsq@163.com

学习经历:

  19969月-20007月:兰州大学资源环境学院环境科学专业,获学士学位

  20068月-20096月:中科院广州地球化学研究所环境科学专业,获硕士学位

  20099月-20122月:上海交通大学环境科学与工程学院环境工程专业,获博士学位

  其中201012月-20122月:清华大学环境学院博士生国内访学

工作经历:

  20008月-20068月:宿迁市环境监测中心站,工程师,科长

  20124月-:南京理工大学环境与生物工程学院,教授,博士生导师(2014

  其中201412月-20168月:香港中文大学生命科学学院香江学者

主要研究方向:

  大/水气污染与控制、环境功能材料

科研项目:

  江苏省杰出青年基金过渡金属类质同像置换对铁基尖晶石矿物界面反应性的调控2015.07-2018.07100万元

  国家自然科学基金面上项目过渡金属类质同象置换对铁基尖晶石NH3-SCR反应性能的调控”(No. 41372044)2014.01.-2017.1290


论文发表:

2016

1.Yang, S.*; Qi, F.; Xiong, S.; Dang, H.; Liao, Y.; Wong, P. K.*; Li, J.*, MnOx supported on Fe-Ti spinel: A novel Mn based low temperature SCR catalyst with a high N2 selectivity. Applied Catalysis B-Environmental 2016,181, 570-580.

2.Liao, Y.; Chen D.; Zou S.J.; Xiong S. C.; Xiao, X.; Dang, H.; Chen, T. H.; Yang,S. J.*, Recyclable naturally derived magnetic pyrrhotite for elemental mercury recovery from flue gas. Environmental Science & Technology 2016, In press. (二区,IF=5.393)

3.Dang, H.; Liao Y.; Ng, T.; Huang, G.; Xiong, S.; Xiao,X.;Yang, S.*; Wong, P. K.*,The simultaneous centralized control of elemental mercury emission and deep desulfurization from the flue gas using magnetic Mn-Fe spinel as a co-benefit of the wet electrostatic precipitator. Fuel Processing Technology, 2016, 142, 345-351.

4.Xiao, X.; Xiong, S; Shi, Y; Shan, W; Yang, S. J. *, Effect of H2O and SO2 on the selective catalytic reduction of NO with NH3 over Ce/TiO2 catalyst: Mechanism and kinetic study. Journal of Physical ChemistryC2016, 120, 1011-1076.

5.Xiong, S. C.; Weng J. X.; Liao Y.; Li, B.; Zou S. J.; Geng, Y.; Xiao, X.; Huang,N.; YangS. J. *,Alkali metal deactivation on the low temperature selective catalytic reduction of NOx with NH3 over MnOx-CeO2: A mechanism study. Journal of Physical ChemistryC2016, 120, 15299-1530.

6.Li, B.; Xiong, S. C.; Liao, Y.; Xiao, X.; Huang, N.; Geng, Y.; Zou, S. J.; Yang, S. J.*, Why the low temperature SCR performance of Cr/TiO2 much less than that of Mn/TiO2: A mechanism study. Journal of Physical ChemistryC2016, In press.

7.Xiao, X.; Xiong, S. C.; Li, B. Geng, Y. Yang, S. J.*, Role of WO3 in NO reduction with NH3 over V2O5-WO3/TiO2: A new insight from the kinetic study. Catalysis Letters 2016, In press.

2015

1.    Xiong, S. C.; Liao, Y.; Xiao, X.; Dang, H.; Yang, S. J. *, Novel Effect of H2O on the Low Temperature Selective Catalytic Reduction of NO with NH3 over MnOx-CeO2: Mechanism and Kinetic Study. Journal of Physical Chemistry C 2015, 119, 4180-4187.

2.    Xiong, S.; Liao, Y.; Xiao, X.; Dang, H.; Yang, S.*, The mechanism of the effect of H2O on the low temperature selective catalytic reduction of NO with NH3 over Mn-Fe spinel. Catalysis Science & Technology 2015, 5, 2132-2140.

3.    Xiong, S. C.; Liao, Y.; Dang, H.; Qi, F. H.; Yang, S. J. *, Promotion mechanism of CeO2 addition on the low temperature SCR reaction over MnOx/TiO2: A new insight from the kinetic study. RSC Advances 2015,5, 27785-27793.

4.    Qi, F. H.; Xiong, S. C.; Liao, Y.; Dang, H.; Yang, S. J. *, A novel dual layer SCR catalyst with a broad temperature window for the control of NOx emission from diesel bus. Catalysis Communications 2015,65, 108-112.

5.    Liao, Y.; Xiong, S.; Dang, H.; Xiao, X.; Yang, S. *; Wong, P. K.*, The centralized control of elemental mercury emission from the flue gas by a magnetic rengenerable Fe-Ti-Mn spinel. Journal of Hazardous Materials 2015,299, 740-746.

6. Xiong, S.; Xiao, X.; Liao, Y.; Dang, H.; Shan, W.; Yang, S.*, A global kinetic study of NO reduction by NH3 over V2O5-WO3/TiO2: Relationship between the SCR performance and the key factors. Industrial & Engineering Chemistry Research2015, 54, 11011-11023.

2014年:

1.    Yang, S.; Liao, Y.; Xiong, S.; Qi, F.; Dang, H.; Xiao, X.; Li, J., N2 selectivity of NO reduction by NH3 over MnOx-CeO2: Mechanism and key factors. Journal of Physical Chemistry C 2014, 118, 21500-21508.

2.    Yang, S.; Qi, F.; Liao, Y.; Xiong, S.; Lan, Y.; Fu, Y.; Shan, W.; Li, J., Dual effect of sulfation on the selective catalytic reduction of NO with NH3 over MnOx/TiO2: Key factor of NH3 distribution. Industrial & Engineering Chemistry Research2014, 53, 5810-5819.

3.    Yang, S.; Xiong, S.; Liao, Y.; Xiao, X.; Qi, F.; Peng, Y.; Fu, Y.; Shan, W.; Li, J., Mechanism of N2O formation during the low temperature selective catalytic reduction of NO with NH3 over Mn-Fe spinel. Environmental Science & Technology2014, 48, 10354-10362.

4.    Yang, S. J.; Fu, Y. W.; Liao, Y.; Xiong, S. C.; Qu, Z.; Yan, N. Q.; Li, J. H., 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. Catalysis Science & Technology2014, 4, 224-232.

5.    Huang, H. L.; Lan, Y.; Shan, W. P.; Qi, F. H.; Xiong, S. C.; Liao, Y.; Fu, Y. W.; Yang, S. J. *, Effect of Sulfation on the Selective Catalytic Reduction of NO with NH3 Over γ-Fe2O3. Catalysis Letters 2014, 144, 578-584.

6.    Chen, W. M.; Ma, Y. P.; Yan, N. Q.; Qu, Z.; Yang, S. J.; Xie, J. K.; Guo, Y. F.; Hu, L. G.; Jia, J. P., The co-benefit of elemental mercury oxidation and slip ammonia abatement with SCR-Plus catalysts. Fuel2014, 133, 263-269.

7.    Xie, J. K.; Yan, N. Q.; Liu, F.; Qu, Z.; Yang, S. J.; Liu, P., CO2 adsorption performance of ZIF-7 and its endurance in flue gas components. Frontiers of Environmental Science & Engineering2014, 162-168.

2013年:

1.    Yang, S. J.; Guo, Y. F.; Chang, H. Z.; Ma, L.; Peng, Y.; Qu, Z.; Yan, N. Q.; Wang, C. Z.; Li, J. H., Novel effect of SO2 on the SCR reaction over CeO2: Mechanism and significance. Applied Catalysis B-Environmental2013, 136, 19-28.

2.    Yang, S. J.; Liu, C. X.; Chang, H. Z.; Ma, L.; Qu, Z.; Yan, N. Q.; Wang, C. Z.; Li, J. H., Improvement of the activity of γ-Fe2O3 for the selective catalytic reduction of NO with NH3 at high temperatures: NO reduction versus NH3 oxidization. Industrial & Engineering Chemistry Research 2013, 52, 5601-5610.

3.    Yang, S. J.; Wang, C. Z.; Ma, L.; Peng, Y.; Qu, Z.; Yan, N. Q.; Chen, J. H.; Chang, H. Z.; Li, J. H., Substitution of WO3 in V2O5/WO3-TiO2 by Fe2O3 for selective catalytic reduction of NO with NH3. Catalysis Science & Technology2013, 3, 161-168.

4.    Chang, H. Z.; Ma, L.; Yang, S. J.; Li, J. H.; Chen, L.; Wang, W.; Hao, J. M., Comparison of preparation methods for ceria catalyst and the effect of surface and bulk sulfates on its activity toward NH3-SCR. Journal of Hazardous Materials2013, 262, 782-788.

5.    Guo, Y. F.; Yan, N. Q.; Liu, P.; Yang, S. J.; Wang, J.; Qu, Z., Removal of elemental mercury with Mn/Mo/Ru/Al2O3 membrane catalytic system. Frontiers of Environmental Science & Engineering2013, 7, 464-473.

6.    Liu, C. X.; Yang, S. J.; Ma, L.; Peng, Y.; Hamidreza, A.; Chang, H. Z.; Li, J. H., Comparison on the performance of α-Fe2O3 and γ-Fe2O3 for selective catalytic reduction of nitrogen oxides with ammonia. Catalysis Letters2013, 143, 697-704.

7.    Wang, C. Z.; Yang, S. J.; Chang, H. Z.; Peng, Y.; Li, J. H., Structural effects of iron spinel oxides doped with Mn, Co, Ni and Zn on selective catalytic reduction of NO with NH3. Journal of Molecular Catalysis A:Chemical2013, 376, 13-21.

8.    Wang, C. Z.; Yang, S. J.; Chang, H. Z.; Peng, Y.; Li, J. H., Dispersion of tungsten oxide on SCR performance of V2O5-WO3/TiO2: Acidity, surface species and catalytic activity. Chemical Engineering Journal 2013, 225, 520-527.

9.    Xie, J. K.; Qu, Z.; Yan, N. Q.; Yang, S. J.; Chen, W. M.; Hu, L. G.; Huang, W. J.; Liu, P., Novel regenerable sorbent based on Zr-Mn binary metal oxides for flue gas mercury retention and recovery. Journal of Hazardous Materials2013, 261, 206-213.

2012年:

1.    Yang, S. J.; Li, J. H.; Wang, C. Z.; Chen, J. H.; Ma, L.; Chang, H. Z.; Chen, L.; Peng, Y.; Yan, N. Q., Fe-Ti spinel for the selective catalytic reduction of NO with NH3: Mechanism and structure-activity relationship. Applied Catalysis B-Environmental2012, 117, 73-80.

2.    Yang, S. J.; Wang, C. Z.; Chen, J. H.; Peng, Y.; Ma, L.; Chang, H. Z.; Chen, L.; Liu, C. X.; Xu, J. Y.; Li, J. H.; Yan, N. Q., A novel magnetic Fe-Ti-V spinel catalyst for the selective catalytic reduction of NO with NH3 in a broad temperature range. Catalysis Science & Technology2012, 2, 915-917.

3.    Chang, H. Z.; Li, J. H.; Chen, X. Y.; Ma, L.;Yang, S. J.; Schwank, J. W.; Hao, J. M., Effect of Sn on MnOx-CeO2 catalyst for SCR of NOx by ammonia: Enhancement of activity and remarkable resistance to SO2. Catalysis Communications2012, 27, 54-57.

4.    Guo, Y. F.; Yan, N. Q.; Yang, S. J.; Liu, P.; Wang, J.; Qu, Z.; Jia, J. P., Conversion of elemental mercury with a novel membrane catalytic system at low temperature. Journal of Hazardous Materials2012, 213, 62-70.

5.    Ma, L.; Chang, H. Z.; Yang, S. J.; Chen, L.; Fu, L. X.; Li, J. H., Relations between iron sites and performance of Fe/HBEA catalysts prepared by two different methods for NH3-SCR. Chemical Engineering Journal2012, 209, 652-660.

6.    Xie, J. K.; Yan, N. Q.; Qu, Z.; Yang, S. J., Synthesis, characterization and experimental investigation of Cu-BTC as CO2 adsorbent from flue gas. Journal of Environmental Sciences-China2012, 24, 640-644.

7.    Xie, J. K.; Yan, N. Q.; Yang, S. J.; Qu, Z.; Chen, W. M.; Zhang, W. Q.; Li, K. H.; Liu, P.; Jia, J. P., Synthesis and characterization of nano-sized Mn-TiO2 catalysts and their application to removal of gaseous elemental mercury. Research on Chemical Intermediates2012, 38, 2511-2522.

2011年:

1.    Yang, S. J.; Guo, Y. F.; Yan, N. Q.; Qu, Z.; Xie, J. K.; Yang, C.; Jia, J. P., Capture of gaseous elemental mercury from flue gas using a magnetic and sulfur poisoning resistant sorbent Mn/γ-Fe2O3 at lower temperatures. Journal of Hazardous Materials2011, 186, 508-515.

2.    Yang, S. J.; Guo, Y. F.; Yan, N. Q.; Wu, D. Q.; He, H. P.; Qu, Z.; Jia, J. P., Elemental Mercury Capture from Flue Gas by Magnetic Mn-Fe Spinel: Effect of Chemical Heterogeneity. Industrial & Engineering Chemistry Research2011, 50, 9650-9656.

3.    Yang, S. J.; Guo, Y. F.; Yan, N. Q.; Wu, D. Q.; He, H. P.; Qu, Z.; Yang, C.; Zhou, Q.; Jia, J. P., Nanosized cation-deficient Fe-Ti spinel: A novel magnetic sorbent for elemental mercury capture from flue gas. ACS Applied Materials & Interfaces2011, 3, 209-217.

4.    Yang, S. J.; Guo, Y. F.; Yan, N. Q.; Wu, D. Q.; He, H. P.; Xie, J. K.; Qu, Z.; Jia, J. P., Remarkable effect of the incorporation of titanium on the catalytic activity and SO2 poisoning resistance of magnetic Mn-Fe spinel for elemental mercury capture. Applied Catalysis B-Environmental2011, 101, 698-708.

5.    Yang, S. J.; Wang, C. Z.; Li, J. H.; Yan, N. Q.; Ma, L.; Chang, H. Z., Low temperature selective catalytic reduction of NO with NH3 over Mn-Fe spinel: Performance, mechanism and kinetic study. Applied Catalysis B-Environmental2011, 110, 71-80.

6.    Yang, S. J.; Yan, N. Q.; Guo, Y. F.; Wu, D. Q.; He, H. P.; Qu, Z.; Li, J. F.; Zhou, Q.; Jia, J. P., Gaseous elemental mercury capture from flue gas using magnetic nanosized (Fe3-xMnx)1-δO4. Environmental Science & Technology2011, 45, 1540-1546.

7.    Chen, J. H.; Shi, W. B.; Yang, S. J.; Arandiyan, H.; Li, J. H., Distinguished Roles with Various Vanadium Loadings Of CoCr2-xVxO4 (x=0-0.20) for Methane Combustion. Journal of Physical Chemistry C2011, 115, 17400-17408.

8.    Yan, N. Q.; Chen, W. M.; Chen, J.; Qu, Z.; Guo, Y. F.; Yang, S. J.; Jia, J. P., Significance of RuO2 modified SCR catalyst for elemental mercury oxidation in coal-fired flue gas. Environmental Science & Technology2011, 45, 5725-5730.

2010年及之前:

1.    Yang, S. J.; He, H. P.; Lu, S. L.; Chen, D.; Zhu, J. X., Quantification of crop residue burning in the field and its influence on ambient air quality in Suqian, China. Atmospheric Environment2008, 42, 1961-1969.

2.    Yang, S. J.; He, H. P.; Wu, D. Q.; Chen, D.; Liang, X. L.; Qin, Z. H.; Fan, M. D.; Zhu, J. X.; Yuan, P., Decolorization of methylene blue by heterogeneous Fenton reaction using Fe3-xTixO4 (0≤x ≤0.78) at neutral pH values. Applied Catalysis B-Environmental2009, 89, 527-535.

3.    Yang, S. J.; He, H. P.; Wu, D. Q.; Chen, D.; Ma, Y. H.; Li, X. L.; Zhu, J. X.; Yuan, P., Degradation of methylene blue by heterogeneous Fenton Reaction using titanomagnetite at neutral pH values: Process and affecting factors. Industrial & Engineering Chemistry Research2009, 48, 9915-9921.

4.    Yang, S. J.; Guo, Y. F.; Yan, N. Q.; Wu, D. Q.; He, H. P.; Xie, J. K.; Qu, Z.; Yang, C.; Jia, J. P., A novel multi-functional magnetic Fe-Ti-V spinel catalyst for elemental mercury capture and callback from flue gas. Chemical Communications2010, 46, 8377-8379.

5.    Li, J. F.; Yan, N. Q.; Qu, Z.; Qiao, S. H.; Yang, S. J.; Guo, Y. F.; Liu, P.; Jia, J. P., Catalytic oxidation of elemental mercury over the modified catalyst Mn/α-Al2O3 at lower temperatures. Environmental Science & Technology 2010, 44, 426-431.

6.    Qu, Z.; Yan, N. Q.; Liu, P.; Jia, J. P.; Yang, S. J., The role of iodine monochloride for the oxidation of elemental mercury. Journal of Hazardous Materials2010, 183, 132-137.