基本信息

学术简历：

1、1991年-1994年，哈尔滨师范大学化学系攻读硕士学位（获理学硕士学位），导师：徐国林教授和徐恒泳教授；

2、2001年-2005年，清华大学化学系攻读博士学位（获理学博士学位），导师：徐柏庆教授；

3、2010.8-2011.8，2019.2-2019.8，美国密歇根大学高级访问学者，导师：Ralph T. Yang教授（美国工程院院士和中国工程院外籍院士）

工作简历：1994年7月分配到北京工业大学环境与生命学部至今。

主讲课程

本科生课程：“环境监测”“环境学”“化学与环境”“环境功能材料学”

硕士和博士研究生课程：“高等环境化学”、“环境催化”、“环境材料学”

研究方向

基于“化学与化工”和“环境科学与工程”方向的“环境催化”研究。

1、基于污染控制和能源的热、光和电化学催化；

2、环境催化和污染控制化学（环境污染物的催化消除）；

3、温室气体/环境污染物（CO₂、CO、CH₄和NOx等）吸附-活化及其应用；

4、新型催化材料制备及其应用。

主持课题

国家重点研发计划项目（2017YFC0209905）

国家自然基金面上项目（21277008/B0703）

国家自然基金面上项目（20777005/B0703）

北京市教委科技发展计划面上项目（KM2013100050010）

北京市自然基金面上项目（8082008）

北京市自然基金面上项目（8062025）

多项企事业研究开发项目（2018-2025）

*学术学位博士研究生招生方向

“083000环境科学与工程”03方向“环境催化或环境分析”

*工程类专业学位博士研究生招生方向

“085700资源与环境”03方向“环境规划与管理”

*硕士学术学位研究生招生方向

“0830环境科学与工程”02方向“环境催化与环境分析”

*硕士专业学位研究生招生方向

“085701环境工程”03方向“环境规划与管理”

近五年主要论著

1.Decai Yang, Chao Qu*, Fanwei Meng, Lanyang Wang, Yongqi Li,Qing Ye*, Synergistic enhancement of photocatalytic hydrogen evolution by ultrathin oxygen-doped graphitic carbon nitride nanosheets loaded amorphous mesoporous nickel hydroxide,Separation and Purification Technology,2023, In Press

2.Xinpeng Wang, Chao Qu*, Wenyi Liu, Fanwei Meng, Fan Yang, Xin Zhang,Qing Ye*, Enhanced low-temperature NH₃-SCR performance by g-C₃N₄modified Ce-OMS-2 catalyst,Microporous and Mesoporous Materials, 2023,361

3.Ning Dong, Mengyue Chen,Qing Ye*, Dan Zhang, Hongxing Dai*. Promotional effect of cobalt doping on catalytic performance of cryptomelane-type manganese oxide in toluene oxidation,Journal of Environmental Sciences, 2023, 126: 263-274.

4.Xinpeng Wang,Qing Ye*, Wenyi Liu, Fanwei Meng, Fan Yang, Xin Zhang, Hongxing Dai, Improved sulfur dioxide resistance of the Mn/Fe-pillared interlayered clay by the doping of ceria in the selective catalytic reduction of NO with NH₃, Reaction Kinetics Mechanisms and Catalysis,2023,136:1263-1281

5.Xinpeng Wang,Qing Ye*, Wenyi Liu, Fanwei Meng, Fan Yang, Xin Zhang, Hongxing Dai*, Enhanced Resistance to Pb Poisoning of the Co-modified Mn/Fe-pillared Clay Catalysts for NH₃-SCR at Low Temperatures,Chemistry Select, 2023, 8(10)

6.Ning Dong,Qing Ye*, Yang Xiao, Dan Zhang, Hongxing Dai*. Reduced graphene oxide as an effective promoter to the layered manganese oxide-supported Ag catalysts for the oxidation of ethyl acetate and carbon monoxide,Journal of Hazardous Materials, 2022, 431: 128518.

7.Ning Dong,Qing Ye*, Yang Xiao, Dan Zhang, Hongxing Dai*. Enhancement in catalytic performance of birnessite-type MnO2-supported Pd nanoparticles by the promotional role of reduced graphene oxide for toluene oxidation,Catalysis Science & Technology, 2022, 12(7): 2197-2209.

8.Kai Wu,Qing Ye*, Lanyang Wang, Fanwei Meng, Hongxing Dai*. Graphene oxide-doped stearate-intercalated layered double oxide nanocomposites as high-performance CO₂adsorbents,Separation and Purification Technology, 2022, 288: 120686

9.Kai Wu,Qing Ye*, Lanyang Wang, Fanwei Meng, Hongxing Dai*. Polyethylenei mine-modified layered double hydroxide/SBA-15 composites: A novel kind of highly efficient CO2 adsorbents,Applied Clay Science, 2022, 229: 106660

10.Kai Wu, Qing Ye*, Lanyang Wang, Fanwei Meng, Hongxing Dai*. Mesoporous alumina-supported layered double hydroxide for efficient CO₂capture,Journal of CO₂Utilization, 2022, 60: 101982.

11.Ning Dong, Mengyue Chen,Qing Ye*, Dan Zhang, Hongxing Dai*. An investigation on catalytic performance and reaction mechanisms of Fe/OMS-2 for the oxidation of carbon monoxide, ethyl acetate, and toluene,Journal of Environmental Sciences, 2022, 112: 258-268

12.Dan Zhang,Qing Ye*, Ning Dong, Wenjin Wang, Yang Xiao, Hongxing Dai*, Enhanced Catalytic Performance and Sulfur Dioxide Resistance of Reduced Graphene Oxide-Promoted MnO₂Nanorods-Supported Pt Nanoparticles for Benzene Oxidation,Catalysts, 2022, 12(11)

13.Runping Wu,Qing Ye*, Kai Wu, Lanyang Wang, Hongxing Dai*. Highly efficient CO2 adsorption of corn kernel-derived porous carbon with abundant oxygen functional groups,Journal of CO₂Utilization, 2021, 51: 101620.

14.Runping Wu,Qing Ye*, Kai Wu, Hongxing Dai, Potassium-modified ordered mesoporous carbon materials (K-CMK-3): Highly efficient adsorbents for NO adsorption at low temperatures,Journal of Solid State Chemistry, 2021, 294: 121844

15.Runping Wu,Qing Ye*, Kai Wu, Hongxing Dai*. Low-temperature (NO + O₂) adsorption performance of alkaline earth metal-doped C-FDU-15,Journal of Environmental Sciences, 2021, 103: 172-184.

16.Runping Wu,Qing Ye*, Kai Wu, Hongxing Dai*. Efficient abatement of NOx emitted from automotive engines via adsorption on the Ba-CMK-3 adsorbents,Environmental Science and Pollution Research, 2021, 28(17): 21369-21380.

17.Zhidan Fu, Mengyue Chen,Qing Ye*, Ning Dong, Hongxing Dai*. Enhanced performance of the OMS-2-supported CuOx catalysts for carbon monoxide, ethyl acetate, and toluene oxidation,Catalysts, 2021, 11: 713.

18.Chenxi Li, Jin Cheng, Qing Ye*, Fanwei Meng, Xinpeng Wang, Hongxing Dai*. Poisoning effects of alkali and alkaline earth metal doping on selective catalytic reduction of NO with NH₃over the Nb-Ce/Zr-PILC catalysts,Catalysts, 2021, 11: 329.

19.Ning Dong, Mengyue Chen,Qing Ye*, Dan Zhang, Hongxing Dai*. Catalytic elimination of carbon monoxide, ethyl acetate, and toluene over the Ni/OMS-2 catalysts,Catalysts, 2021, 11: 581.

20.Kai Wu,Qing Ye*, Runping Wu, Hongxing Dai. Alkali metal-promoted aluminum- pillared montmorillonites: High-performance CO2 adsorbents,Journal of Solid State Chemistry, 2020, 291:121585

21.Ning Dong,Qing Ye*, Mengyue Chen, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Sodium-treated sepiolite-supported transition metal (Cu, Fe, Ni, Mn or Co) catalysts for HCHO oxidation,Chinese Journal of Catalysis, 2020, 41(11): 1734- 1744.

22.Qi Gao,Qing Ye*, Shuai Han, Hongxing Dai. Calcium poisoning mechanism of Cu-SAPO-18 for selective catalytic reduction of NOx with ammonia,Chemistry Select, 2020,5(43):13477-13486

23.Runping Wu,Qing Ye*, Kai Wu, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Alkali-modified C-FDU-15: Highly efficient adsorbents for adsorption of NO and O2 at low temperatures,Journal of Colloid and Interface Science, 2020, 577(1): 217-232.

24.Runping Wu,Qing Ye*, Kai Wu, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Adsorption performance of CMK-3 and C-FDU-15 in NO removal at low temperatures,Journal of Environmental Sciences, 2020, 87: 289-298.

25.Kai Wu,Qing Ye*, Runping Wu, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Carbon dioxide adsorption behaviors of aluminum-pillared montmorillonite- supported alkaline earth metals,Journal of Environmental Sciences, 2020, 98: 109-117.

26.Ning Dong,Qing Ye*, Mengyue Chen, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Catalytic oxidation of HCHO over the sodium-treated sepiolite-supported rare earth (La, Eu, Dy, and Tm) oxide catalysts,Catalysts, 2020, 10(3): 328.

27.Jin Cheng,Qing Ye*, Chenxi Li, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Ceria-modified Al-Mn-pillared clay catalysts for the selective catalytic reduction of NO with NH3 at low temperatures,Asia-Pacific Journal of Chemical Engineering, 2020, doi: 10.1002/apj.2439.

28.Qi Gao, Shuai Han,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Effects of lanthanide doping on the catalytic activity and hydrothermal stability of Cu-SAPO-18 for the catalytic removal of NOx (NH₃-SCR) from diesel engines,Catalysts, 2020, 10(3): 336.

29.Qi Gao,Qing Ye*, Shuai Han, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Effect of Ce doping on hydrothermal stability of Cu-SAPO-18 in the selective catalytic reduction of NO with NH₃,Catalysis Surveys from Asia, 2020, 24(2): 134-142.

30.Shuai Han,Qing Ye *, Qi Gao and Hongxing Dai,*Improved SO₂tolerance of Cu-SAPO-18 by Ce-doping in the selective catalytic reduction of NO with NH₃,Catalysts, 2020, 10(7): 783.

31.Jin Cheng, Shuai Han,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Selective catalytic reduction of NO with NH₃over the Cu/SAPO-34 catalysts derived from different Cu precursors,Microporous & Mesoporous Materials, 2019, 278: 423-434.

32.Shuai Han, Jin Cheng,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Ce doping to Cu-SAPO-18: Enhanced catalytic performance for the NH₃-SCR of NO in simulated diesel exhaust,Microporous & Mesoporous Materials, 2019, 276: 133-146.

33.Jin Cheng, Shuai Han,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. Effects of hydrothermal aging at high and low temperatures on the selective catalytic reduction of NO_xwith NH₃over Cu/SAPO-34,Research on Chemical Intermediates, 2019, 45:2023-2044.

34.Jin Cheng, Yong Song,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, A mechanistic investigation on the selective catalytic reduction of NO with ammonia over the V-Ce/Ti-PILC catalysts,Molecular Catalysis, 2018, 111- 123: 445.

35.Jiaoli Fu, NingDong,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*. “Enhanced performance of the OMS-2 catalyst by Ag loading for the oxidation of benzene, toluene, and formaldehyde”,New Journal of Chemistry, 2018, 42 (22): 18117-18127.

36.Shuai Han, Jin Cheng,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, Effect of Si/Al ratio on catalytic performance of hydrothermally aged Cu-SSZ-13 for the NH3-SCR of NO in simulated diesel exhaust,Applied Surface Science, 2017, 419: 382-392.

37.Lisha Liu, Yong Song, Zhidan Fu,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hong xing Dai*, Effect of preparation method on the surface characteristics and activity of the Pd/OMS-2 catalysts for the oxidation of carbon monoxide, toluene, and ethyl acetate,Applied Surface Science, 2017, 396: 599-608

38.Lisha Liu, Yong Song, Zhidan Fu,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*,Enhanced catalytic performance of Cu- and/or Mn-loaded Fe-Sep catalysts for the oxidation of CO and ethyl acetate,Chinese Journal of Chemical Engineering, 2017, 25(10): 1427-1434

39.Zhidan Fu, Lisha Liu, Yong Song,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, Catalytic oxidation of carbon monoxide, toluene, and ethyl acetate over the xPd/OMS-2 catalysts: Effect of Pd loading,Frontiers of Chemical Science & Engineering, 2017, 11(2): 185-196

40.Yong Song, Lisha Liu, Zhidan Fu,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, Excellent performance of Cu-Mn/Ti-sepiolite catalysts for low-temperature CO oxidation,Frontiers of Environmental Science & Engineering, 2017, 11(2)5

41.Zhidan Fu, JiaXinZang,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, Cu-Doped Octahedral Layered Birnessites Catalysts for the Catalytic Oxidation of CO and Ethyl Acetate,Acta Physico-Chimica Sinica, 2017, 33( 9): 1855-1864

42.Shuai Han,Qing Ye*, Shuiyuan Cheng, Tianfang Kang, Hongxing Dai*, Effect of hydrothermal aging temperature and Cu/Al ratio on the hydrothermal stability of the CuSSZ-13 catalysts for NH₃-SCR,Catalysis Science & Technology, 2016, 10, 1-3

授权专利

1）叶青*，吴凯等，发明专利，授权号：ZL 202110882164.1

2）叶青*，董宁等，发明专利，授权号：ZL 202110920789.2

3）叶青*，董宁等，发明专利，授权号：ZL 202010203520.8

4）叶青*，吴凯等，发明专利，授权号：ZL 202010203553.2

5）叶青*，武润平，发明专利，授权号：ZL 202010202604.X

6）叶青*，董宁等，发明专利，授权号：ZL 202010202674.5

7）叶青*，武润平，发明专利，授权号：ZL 202010203529.9

8）叶青*，吴凯等，发明专利，授权号：ZL 202010203518.0

9）叶青*，吴凯等，发明专利，授权号：ZL 201910332199.0

10）叶青*，程锦等，发明专利，授权号：ZL 201910332203.3

11）叶青*，武润平，发明专利，授权号：ZL 201910332165.1

12）叶青*，武润平，发明专利，授权号：ZL 201910332207.1

13）叶青*，吴凯等，发明专利，授权号：ZL 201811576267.X

14）叶青*，吴凯等，发明专利，授权号：ZL 201811576274.X

15）叶青*，程锦等，发明专利，授权号：ZL 201811576298.5

16）叶青*，程锦等，发明专利，授权号：ZL 20181157256.1

17）叶青*，武润平，实用新型专利，授权号：ZL 201821834923.7

研究生获奖情况

1）李晨曦，硕士论文获“2021年北京工业大学校优秀硕士论文奖”

2）高琦，2019年获国家奖学金

3） 付娇丽，硕士论文获“2019年北京工业大学校优秀硕士论文奖”

4）刘丽莎，硕士毕业论文获“2017年北京工业大学校优秀硕士论文奖”

5）路恒，硕士毕业论文获“2015年北京工业大学校优秀硕士论文奖”

6）闫立娜，硕士毕业论文获“2012年北京工业大学校优秀硕士论文奖”

7）赵健生，硕士毕业论文获“2011年北京工业大学校优秀硕士论文奖”

8）罗才武，学术论文获“中国环境科学学会学术年会优秀论文奖”