张润铎

时间:2023-01-04阅读次数:9532

张润铎教授  博士生导师

 办公地址

 北京市朝阳区北三环东路15号北京化工大学无机楼311/行政楼417

 职务:

 北京化工大学人才引进办公室主任

 能源环境催化北京市重点实验室主任


电子邮箱

 zhangrd@mail.buct.edu.cn

联系电话

15810077837

学术兼职

教育部新世纪优秀人才(2009年),国家863计划项目首席专家(2013年)。中国能源学会能源与环境专业委员会副主任(2017年)。 

招生专业及研究方向

招生专业:
环境科学与工程、化学工程

研究方向:

1. 新型环境友好材料的制备及微/介孔分子筛结构的控制与调变

新型超微孔分子筛材料的设计合成

/介孔环境友好材料的孔道拓扑调控

钙钛矿复合氧化物的高比表面制备策略

2. 尾气催化剂活性结构的研究及反应机理的深入探索。

活性中心结构的表征(边界迁移氧物种的特色考察)与设计

基于红外、程序升温等谱学手段的反应机理考察

微观催化机制的量化计算(吸附成键、电子转移、反应活化能、传质扩散)

3. 新型废气净化催化剂结构与高净化效能间的匹配创研

居室甲醛的室温催化净化

臭氧的高效催化分解

己二酸厂温室气体N2O尾气的催化分解

工业挥发含氮/含氯有机废气的催化治理

汽油机动车尾气中NOxCO、碳氢化物的三效催化净化

柴油机动车富氧条件下NO的催化脱除

个人经历

教育背景:

1990-1994年于天津大学应用化学系高分子化工专业,工学学士学位

1996年考取大连理工大学工业催化专业硕士研究生

1998-2001年以硕博连读、中韩联合培养的方式于韩国浦项工科大学获得环境科学与工程学院完成博士论文,获大连理工大学环境工程专业工学博士学位

工作经历:

2001年受聘于中科院生态环境研究中心,助理研究员

2003年加拿大Laval大学化工系,博士后

2006年加拿大Laval大学化工系,Research Associate

2008年北京化工大学化学工程学院,教授,博士研究生导师

科研项目

1. 国家自然科学基金面上项目:基于甲醛室温高效脱除的分子筛限域封装贵金属(22176010)2021-2025年,60万元,负责人:张润铎。

2. 国家自然科学基金面上项目:具有核壳结构特征高效分子筛脱硝催化剂的构建原则(21976012)2020-2023年,66万元,负责人:张润铎。

3. 国家自然科学基金联合基金项目:石化丙烯腈尾气催化燃烧净化的高N2选择性分子筛催化剂设计(U1862102)2018-2021年,42万元,负责人:张润铎。

4. 国家自然科学基金面上项目:基于氮氧化物高效催化脱除的分子筛拓扑结构调控研究(201477007)2015-201887万元,负责人:张润铎。

5. 国家863计划项目:石化行业典型含氰废气净化技术与示范(2013AA065900)2013-2015年,1738万元,首席专家:张润铎。

6. 国家自然科学基金面上项目:建构高比表面钙钛矿复合氧化物催化燃烧含氰废气的研究(21177008)2012-201560万元,负责人:张润铎。

7. 国家自然科学基金面上项目:钙钛矿边界迁移氧的调控及与三效催化性能的匹配创研(20977004)2010-2012年,31万元,负责人:张润铎。

8. 国家自然科学基金创新群体项目:反应过程强化(20821004/21121064)2009-2013年,50/900万元,负责人:张润铎。

9. 双一流学科建设项目:绿色单原子环能催化,2018-2020年,400万元,负责人:张润铎。

10. 中央高校学科提升计划项目:典型致霾工业废气净化关键科学问题与技术研究,2014-2016年,456万元,负责人:张润铎。

11. 教育部高等学校博士点基金:钙钛矿边界迁移氧与汽油机车尾气净化效能的耦合性研究,2010-2012年,3.6万元,负责人:张润铎。

12. 中石化技术开发项目:碳纤维炭化尾气催化治理技术研究,2014-2014年,100万元,负责人:张润铎。

学术成就

在国际SCI期刊Chem RevEnviron Sci TechnolJ CatalAppl Catal B: EnvironJ Mater Chem AACS Appl Mat InterfEnviron Sci NanoChem Common等发表学术论文150余篇,Catalysis TodayTop期刊)、Petroleum Science客座编辑。关于“典型氮氧化物催化脱除的科学基础与工程”的研究成果,获教育部自然科学二等奖。 针对河南平煤集团26万吨/年(国内产能最大)己二酸生产装置N2O尾气净化,完成2.5吨工业分子筛催化剂的生产及工业应用,减排N2O2万吨/年(温室效应相当于620万吨/CO2)。创制一段式工艺,在吉化公司建立了10万立方米/小时丙烯腈尾气净化装置的工业示范(相当于全国废气排放总量的1/10),实现稳定运行,及尾气达标排放(GB16297-1996),减排丙烯腈320/年;可节省排污费10亿元,该工作被《中国科技成果》所报道。

论著专利

1.B. Kang, M. Li, Z. Di, X. Guo, Y. Wei, J. Jia, R. Zhang (张润铎)*, Role of Al pairs on effective N2O decomposition over ZSM-5 zeolite catalyst, Catal. Today, 402 (2022) 17-26. (IF=6.766)

2.Z. Di#, H. Chen#, R. Zhang (张润铎)*, H. Wang, J. Jia, Y. Wei, Significant promotion of reducing treatment on Pd/TS-1 zeolite for formaldehyde catalytic purification at ambient temperature, Appl. Catal. B: Environ., 304 (2022) 120843 (IF=19.503)

3.Z. Di, H. Wang, R. Zhang (张润铎)*, H. Chen, Y. Wei, J. Jia, ZSM-5 core-shell structured catalyst for enhancing low-temperature NH3-SCR efficiency and poisoning resistance, Appl. Catal. A: Gen., 630 (2022) 118438. (IF=5.706)

4.H. Chen, R. Zhang (张润铎)*, W. Bao, H. Wang, Y. Wei, Encapsulating uniform Pd nanoparticles in TS-1 zeolite as efficient catalyst for catalytic abatement of indoor formaldehyde at room temperature, Appl. Catal. B: Environ., 278 (2020) 119311. (IF=16.683)

5.M. Li, R. Zhang (张润铎)*, H. Wang, H. Chen, Y. Wei, Role of the exposure facets upon diverse morphologies of cobalt spinels on catalytic deN2O process, Catal. Today, 376 (2021) 177-197. (IF=5.825)

6.H. Wang, B. Peng, R. Zhang (张润铎)*, Synergies of Mn oxidative ability and ZSM-5 acidity for 1, 2-dichloroethane catalytic elimination, Appl. Catal. B: Environ., 276 (2020) 118922. (IF=16.683)

7.X. Wang, R. Zhang (张润铎)*, H. Wang, Y. Wei, Strategy on Effective Synthesis of SSZ-13 zeolite aiming at outstanding performances for NH3-SCR process, Catal. Surv. Asia, 24 (2020) 143-155. (IF=2.194)

8.W. Bao, H. Chen, H. Wang, R. Zhang (张润铎)*, Y. Wei, L. Zheng, Pt Nanoparticles Supported on N-/Ce-Doped Activated Carbon for the catalytic oxidation of formaldehyde at room temperature, ACS Appl. Nano Mat., 3 (2020) 2614-2624.

9.H. Wang, R. Zhang (张润铎)*, Y. Wei, W. Y. Teoh, Selective catalytic oxidation of ammonia over different topologies nano Cu/zeolites, Environ. Sci. Nano, 7 (2020) 1399-1414. (IF=7.683)

10.S. Liu, H. Wang, Y. Wei, R. Zhang (张润铎)*, Core-shell structure effect on CeO2 and TiO2 supported WO3 for the NH3-SCR process, Mol. Catal., 485 (2020) 110822. (IF=3.687)

11.Zhou-jun Wang*, R. Zhang (张润铎)*, Z. Lei*, Claude Descorme*, Michael S. Wong*, New Opportunities and Challenges in Energy and Environmental Catalysis (EEST2018), Catal Today, 339 (2020) 1-2. (IF=5.825)

12.S. Liu, R. Zhang (张润铎)*, P. Li, H. Chen, Y. Wei*, Z. Wang, X. Liang, Morphology effect of diverse ceria with active tungsten species on NH3-SCR behaviors, Catal. Today, 339 (2020) 241-253. (IF=5.825)

13.H. Chen, R. Zhang (张润铎)*, W. Bao, H. Wang, Z. Wang, Y. Wei*, Effective catalytic abatement of indoor formaldehyde at room temperature over TS-1 supported platinum with relatively low content, Catal. Today, 355 (2020) 547-554.

14.H. Wang, R. Zhang (张润铎)*, P. Li, S. Royer, J. Dacquin*, Mechanistic insight on the methanol SCR of NO reaction over Cu-containing perovskites, J. Catal. 377 (2019) 480-493. (IF=7.888)

15.S. Liu, R. Zhang (张润铎)*, H. Wang, Y. Wei, S. Royer*. Morphology oriented ZrO2 supported vanadium oxide for NH3-SCR process: importance of structural and textural properties. ACS Appl. Mat. Inter., 11 (2019) 22240-22254. (IF=8.758)

16.N. Liu, D. Shi, R. Zhang (张润铎)*, Y. Li, B. Chen, Highly selective catalytic combustion of acrylonitrile towards nitrogen over Cu-modified zeolites, Catal. Today, 332 (2019) 201-213. (IF=5.825)

17.H. Wang, R. Xu, Y. Jin, R. Zhang (张润铎)*, Zeolite structure effects on Cu active center, SCR performance and stability of Cu-zeolite catalysts, Catal. Today, 327 (2019) 295-307. (IF=5.825)

18.Yutong Lin, Ying Wei*, Ling Zhang, Ke Guo, Miao Wang, Pengfei Huang, Xiangzhi Meng, R. Zhang (张润铎)*, Facile ionothermal synthesis of SAPO-LTA zeotypes with high structural stability and their catalytic performance in MTO reaction, Micropro. Mesopro. Mat. 288 (2019) 109611-109617. (IF=4.551)

19.S. Liu, H. Wang, R. Zhang (张润铎)*, Y. Wei*, Synergistic effect of niobium and ceria on anatase for low-temperature NH3-SCR of NO process, Mol. Catal., 478 (2019) 110563. (IF=3.687)

20.B. Peng, W. Bao, L. Wei, R. Zhang (张润铎)*, Z. Wang, Y. Wei*, Highly active OMS-2 for catalytic ozone decomposition under humid conditions, Petrol. Sci., 16 (2019) 912-919. (IF=2.096)

21.Y. Huang, P. Li, R. Zhang (张润铎)*, Y. Wei*, Efficiency of phosphotungstic acid modified Mn-based catalysts to promote activity and N2 formation for selective catalytic reduction of NO with ammonia, Int. J. Chem. React. Eng., 17 : 7 (2019) 20180057. (IF=1.152)

22.M. Wang, L. Zhang, K. Guo, Y. Lin, X. Meng, P. Huang, Y. Wei*, R. Zhang (张润铎)*, Ionothermal synthesis of germanosilicate zeolites constructed with double-four-ring structure building units in the presence of organic base, Chem. An Asia J., 14 (2019) 621–626. (IF=4.056)

23.X. Li, J. Ma*, C. Zhang, R. Zhang (张润铎), H. He, Facile synthesis of Ag-modified manganese oxide for effective catalytic ozone decomposition, J. Environ. Sci. 80 (2019) 159-168. (IF=4.302)

24.X Li, J. Ma*, L. Yang, G. He*, C. Zhang*, R. Zhang (张润铎), H. He, Oxygen vacancies induced by transition metal doping in γ-MnO2 for highly efficient ozone decomposition, Environ. Sci. Technol., 52 (2018) 12685-12696. (IF=7.864)

25.B. Peng, C. Feng, S. Liu, R. Zhang (张润铎)*, Synthesis of CuO catalyst derived from HKUST-1 temple for the low-temperature NH3-SCR process, Catal. Today, 314 (2018) 122-128. (IF=5.825)

26.N. Liu, X. Yuan, R. Zhang (张润铎)*, Y. Li, B. Chen, Mechanistic insight into selective catalytic combustion of HCN over Cu-BEA: influence of different active center structures, Phys. Chem. Chem. Phys., 19 (2017) 23960-23970. (IF=3.430)

27.J. A. H. Dreyer*, P. Li, L, Zhang, G. K. Beh, R. Zhang (张润铎)*, P. H..-L. Sit, W. Y. Teoh, Influence of the oxide support reducibility on the CO2 methanation over Ru-based catalysts, Appl. Catal. B: Environ., 219 (2017) 715-726. (IF=16.683)

28.P. Li, R. Zhang (张润铎)*, N. Liu, S. Royer, Efficiency of Cu and Pd substitution in Fe-based perovskites to promote N2 formation during NH3 selective catalytic oxidation (NH3-SCO), Appl. Catal. B: Environ., 203 (2017) 174-188. (IF=16.683)

29.P. Li, R. Zhang (张润铎)*, X. Wang, S. Liu, N. Liu, B. Chen, New evidence on the correlation between lattice fringe with catalytic performance for suprafacial CO and intrafacial CH4 oxidations over Co3O4 by isotopic 18O2 exchange, Mol. Catal., 437 (2017) 26-36. (IF=3.687)

30.N. Liu, X. Yuan, B. Chen, Y. Li, R. Zhang (张润铎)*, Selective Catalytic Combustion of Hydrogen Cyanide over Metal Modified Zeolite Catalysts: from Experiment to Theory, Catal. Today, 297 (2017) 201-210. (IF=5.825)

31.N. Liu, X. Yuan, R. Zhang (张润铎),* R. Xu, Y. L, Mechanistic insight into selective catalytic combustion of acrylonitrile (C2H3CN): NCO formation and its further transformation towards N2, Phys. Chem. Chem. Phys., 19 (2017) 7971-7979. (IF=3.430)

32.Y. He, S. Dui, J. Li, R. Zhang (张润铎), X. Liang, B. Chen, Mesoporous Au/CeO2 catalysts self-assembled by monodispersed CeO2 nanoparticles and nanocubes and the study of crystal plane effect for low-temperature water-gas shift reaction, ChemCatChem, 9 (2017) 1-14. (IF=4.853)

33.N. Liu, P. Chen, Y. Li, R. Zhang (张润铎)*, N2O direct dissociation over MgxCeyCo1-x-yCo2O4 composite spinel metal oxide, Catalysts. 7:10 (2017) 1-12. (IF=3.520)

34.R. Zhang (张润铎), N. Liu, B. Chen*, Z. Lei, Selective transformation of various nitrogen-containing exhaust gases towards N2 over the zeolite-based catalysts, Chem. Rev., 116 (2016) 3658-3721. (IF=52.758) Cover Review

35.R. Zhang (张润铎)*, P. Li, R. Xiao, N. Liu, B. Chen, Insight into the mechanism of catalytic combustion of acrylonitrile over Cu-doped perovskites by an experimental and theoretical study, Appl. Catal. B: Environ., 196 (2016) 142-154. (IF=16.683)

36.R. Zhang (张润铎), K. Hedjazi, B. Chen, Y. Li, Z. Lei, N. Liu*, M(Fe, Co)-BEA washcoated honeycomb cordierite for N2O direct decomposition, Catal. Today, 273 (2016) 273-285. (IF=5.825)

37.K. Hedjazi, R. Zhang (张润铎) *, R. Cui, N. Liu, B. Chen, Synthesis of TiO¬2 with diverse morphologies as supports of manganese catalysts for CO oxidation, Appl. Petrochem. Res., 6 (2016) 89-96.

38.R. Xu, R. Zhang (张润铎)*, N. Liu, B. Chen, S. Zhang*, Template design and economical strategy for the synthesis of SSZ-13 (CHA-Type) zeolite as an excellent catalyst for the selective catalytic reduction of NOx by ammonia, ChemCatChem, 7 (2015) 3842-3847. (IF=4.853) Cover Paper

39.R. Zhang (张润铎), D. Shi, N. Liu, B. Chen*, L. Wu, L. Wu, W. Yang. Catalytic purification of acrylonitrile-containing exhaust gases from petrochemical industry by metal-doped mesoporous zeolites, Catal. Today, 258 (2015) 17-27. (IF=5.825)

40.R. Zhang (张润铎), B. Zhang, Z. Shi, N. Liu*, B. Chen, Catalytic behaviors of chloromethane combustion over the metal-modified ZSM-5 zeolites with diverse SiO2/Al2O3 ratios, J. Mol. Catal. A: Chem., 398 (2015) 223-230. (IF=3.687)

41.C. Wang, J. Ma*, F. Liu, H. He, R. Zhang (张润铎), The effects of Mn2+ precursors on the structure and ozone decomposition activity of cryptomelane-type manganese oxide (OMS-2) catalysts, J. Phys. Chem. C, 119 (2015) 23119-23126. (IF=4.189)

42.B. Chen, R. Xu, R. Zhang (张润铎)*, N. Liu, Economical way to synthesize SSZ-13 with abundant ion-exchanged Cu+ for an extraordinary performance in selective catalytic reduction (SCR) of NOx by ammonia, Environ. Sci. Technol., 48 (2014) 13909-13916. (IF=7.864)

43.R. Zhang (张润铎), P. Li, N. Liu, W. Yue, B. Chen*, Effect of hard-template residues of the nanocasted mesoporous LaFeO3 with extremely high surface areas on catalytic behaviors for methyl chloride oxidation, J. Mater. Chem. A, 2 (2014) 17329-17340. (IF=11.301) Cover Paper

44.W. Yue, R. Zhang (张润铎)*, N. Liu, B. Chen, Selective catalytic oxidation of ammonia to nitrogen over orderly mesoporous CuFe2O4 with high specific surface area, Chin. Sci. Bull., 59 (2014) 3980-3986. (IF=9.511)

45.R. Zhang (张润铎)*, N. Liu, Z. Luo, W. Yang, X. Liang, R. Xu, B. Chen, D. Duprez, S. Royer*, A remarkable catalyst combination to widen the operating temperature window of the selective catalytic reduction of NO by NH3, ChemCatChem, 6 (2014) 2263-2269. (IF=4.853) Cover Paper

46.N. Liu, R. Zhang (张润铎)*, Y. Li, B. Chen, Local electric field effect of TMI (Fe, Co, Cu)-BEA on N2O direct dissociation, J. Phys. Chem. C, 118 (2014) 10944-10956. (IF=4.189)

47.R. Zhang (张润铎), D. Shi, N. Liu, Y. Cao, B. Chen*. Mesoporous SBA-15 promoted by 3d-transition metal and noble metal ions for selectively catalytic combustion of acetonitrile, Appl. Catal. B, 146 (2014) 79-93. (IF=16.683)                     

48.R. Zhang (张润铎), W. Yang, N. Luo, P. Li, Z. Lei, B. Chen*. Low-temperature NH3-SCR of NO by lanthanum manganite perovskites: effect of A-/B-site substitution and TiO2/CeO2 support, Appl. Catal. B, 146 (2014) 94-104. (IF=16.683)   

49.W. Yang, R. Zhang (张润铎)*, B. Chen, N. Bion, D. Duprez, L. Hou, H. Zhang, S. Royer*. Design of nanocrystalline mixed oxides with improved oxygen mobility: a simple non-aqueous route to nano-LaFeO3 and the consequences on the catalytic oxidation performances, Chem. Commun., 49 (2013) 4923-4925. (IF=5.996)    

50.R. Zhang (张润铎), P. Lei, N. Liu, W. Yang; X. Wang; B. Chen*. CO catalytic combustion over Co/Al2O3: influence of diverse textural properties of alumina supports on the related oxidation activities, Catal. Today, 216 (2013) 169-177. (IF=5.825)     

51.R. Zhang (张润铎), N. Luo, W. Yang, N. Liu, B. Chen*. Low-temperature selective catalytic reduction of NO with NH3 using perovskite-type oxides as the novel catalysts, J. Mol. Catal. A: Chem., 371 (2013) 86-93. (IF=3.687)   

52.C. Dai, Z. Lei*, Y. Wang, R. Zhang (张润铎), B. Chen, Reaction of N2O by CO over Fe and Cu-BEA zeolites: An experimental and computation al study of the mechanism, Micropor. Mesopor. Mat., 167 (2013) 254-266. (IF=4.551)

53.C. Dai, Z. Lei*, Y. Wang, R. Zhang (张润铎), B. Chen, Transfer and reaction performances of selective catalytic reduction of N2O with CO over monolith catalysts, Chin. J. Chem. Eng., 21 (2013) 835-843. (IF=2.627)

54.W. Yang, R. Zhang (张润铎)*, B. Chen, D. Duprez, S. Royer*. New aspects on mechanism of C3H6-SCR of NO in the presence of O2 over LaFe1-x(Cu, Pd)xO3-δ perovskites, Environ. Sci. Technol., 46 (2012) 11280-11288. (IF=7.864)   

55.W. Yang, R. Zhang (张润铎)*, B. Chen, N. Bion, D. Duprez, S. Royer*. Activity of perovskite-type mixed-oxides for the low-temperature CO oxidation; Evidence of oxygen species participation from the solid, J. Catal., 295 (2012) 45-58. (IF=7.888) Top 25 Hottest Articles

56.N. Liu, R. Zhang (张润铎)*, B. Chen*, Y. Li, Y. Li. Comparative study on the direct decomposition of nitrous oxide over M (Fe, Co, Cu)-BEA zeolite, J. Catal., 294 (2012) 99-112. (IF=7.888)     

57.X. Liu, Z. Yang, R. Zhang (张润铎), Q. Li, Y. Li*, Density functional thepry study of mechanism of N2O decomposition over Cu-ZSM-5 zeolites, J. Phys. Chem. C, 116 (2012) 20262-20268. (IF=4.189)   

58.R. Zhang (张润铎), D. Shi, Y. Zhao, B. Chen*, J. Xue, X. Liang, Z. Lei, The reaction of NO + C3H6 + O2 over the mesoporous SBA-15 supported transition metal catalysts, Catal. Today, 175 (2011) 26-33. (IF=5.825)   

59.B. Chen, N. Liu, X. Liu, R. Zhang (张润铎)*, Y. Li, Y. Li, X. Sun, Study on the direct decomposition of nitrous oxide over Fe-beta zeolites: from experiment to theory, Catal. Today, 175 (2011) 245-255. (IF=5.825)   

60.N. Liu, B. Chen, Y. Li, R. Zhang (张润铎)*, X. Liang, Y. Li, Z. Lei. Charge transfer analysis on the direct decomposition of nitrous oxide over Fe-BEA zeolites: an experimental and density functional study, J. Phys. Chem. C, 115 (2011) 12883-12890. (IF=4.189)    

61.J. Xiao, B. Chen, X. Liang*, R. Zhang (张润铎). Y. Li, NiO microspheres with tunable porosity and morphology effects for CO oxidation, Catal. Sci. Technol., 1 (2011), 999-1005. (IF=5.721)

62.R. Zhang (张润铎)*, W. Teoh, R. Amal, B. Chen, S. Kaliaguine*, Selective catalytic reduction of NO by CO over Cu/Ce1-xZrxO2 prepared by flame synthesis, J. Catal., 272 (2010) 210-219. (IF=7.888)   

63.R. Zhang (张润铎)*, N. Luo, B. Chen* and S. Kaliaguine, Soot combustion over lanthanum cobaltites and related oxides for diesel exhaust treatment, Energ. Fuel., 24 (2010) 3719-3726. (IF=3.421)   

64.Y. Wang, Z. Lei*, R. Zhang (张润铎), B. Chen, Adsorption of NO and N2O on Cu-BEA zeolite, J. Mol. Struc.: THEOCHEM, 957 (2010) 41-46. (IF=2.463)   

65.R. Zhang* (张润铎), W. Yang, J. Xue, B. Chen*, The influence of O2, hydrocarbons, CO, H2, NOx, SO2, and water vapor molecules on soot combustion over LaCoO3 perovskite, Catal. Lett., 132 (2009) 10-15. (IF=2.482)   

66.R. Zhang* (张润铎), W. Yang, J. Xue, B. Chen*, Role of structural deficiency of nanoscaled perovskites prepared by reactive grinding on the catalytic purification of exhaust pollutants, Int. J. Chem. React. Eng., 7 (2009) A49. (IF=1.152)   

67.J. Li, J. Zhang*, R. Zhang (张润铎), W. Cao, Study on nanosized Cobalt-based catalyst prepared by supercritical phase condition for Fischer-Tropsch synthesis, J. Nat. Gas Chem., 18 (2009) 325-330. (IF=7.216)

68.Z. Tan, H. Xiao*, R. Zhang (张润铎), Z. Zhang, S. Kaliaguine, Potential to use mesoporous carbon as catalyst support for hydrodesulfurization, New Carbon Mater., 24 (2009) 333-343. (IF=1.761)   

69.R. Zhang (张润铎), H. Alamdari, S. Kaliaguine*, SO2 poisoning of LaFe0.8Cu0.2O3 perovskite prepared by reactive grinding during NO reduction by C3H6, Appl. Catal. A: Gen., 341 (2008) 140-151. (IF=5.006)   

70.R. Zhang (张润铎), H. Alamdari, M. Bassir, S. Kaliaguine*, Crystal structure, redox properties and catalytic performance of Ga-based mixed oxides for NO reduction by C3H6, Catal. Commun., 9 (2008) 111-116. (IF=3.612)   

71.R. Zhang* (张润铎), S. Kaliaguine, The lean reduction of NO by C3H6 over Ag/alumina derived from Al2O3, AlOOH and Al(OH)3, Appl. Catal. B: Environ., 78 (2008) 275-287. (IF=16.683)   

72.R. Zhang (张润铎), H. Alamdari, S. Kaliaguine*, Water vapor sensitivity of nanosized La(Co, Mn, Fe)1-x(Cu, Pd)xO3 perovskites during NO reduction by C3H6 in the presence of oxygen, Appl. Catal. B: Environ., 72 (2007) 331-341. (IF=16.683)   

73.R. Zhang (张润铎), H. Alamdari, S. Kaliaguine*, Catalytic conversion of NO and C3H6 over silver catalysts under stoichiometric or excess oxygen, Catal. Lett., 119 (2007) 108-119.  (IF=2.482)   

74.R. Zhang (张润铎), H. Alamdari, S. Kaliaguine*, Optimization of mixed catalysts for catalytic conversion of NO and C3H6 in lean burn conditions, Int. J. Chem. React. Eng., 5 (2007) A70. (IF=1.152)   

75.R. Zhang (张润铎), A. Villanueva, H. Alamdari, S. Kaliaguine*, Cu- and Pd- substituted nanoscale Fe-based perovskites for selective catalytic reduction of NO by propene, J. Catal., 237 (2006) 368-380. (IF= 7.888)   

76.R. Zhang (张润铎), A. Villanueva, H. Alamdari, S. Kaliaguine*, Catalytic reduction of NO by propene over LaCo1-xCuxO3 perovskites synthesized by reactive grinding, Appl. Catal. B: Environ., 64 (2006) 220-233. (IF= 16.683)   

77.R. Zhang (张润铎), A. Villanueva, H. Alamdari, S. Kaliaguine*, SCR of NO by propene over nanoscale LaMn1-xCuxO3 perovskites, Appl. Catal. A: Gen., 307 (2006) 85-97. (IF= 5.006)   

78.R. Zhang (张润铎), A. Villanueva, H. Alamdari, S. Kaliaguine*, Reduction of NO by CO over nanoscale LaCo1-xCuxO3 perovskites, J. Mol. Catal. A: Chem., 258 (2006) 22-34. (IF=3.687)   

79.R. Zhang (张润铎), H. Alamdari, S. Kaliaguine*, Fe-based perovskites substituted by copper and palladium for NO + CO reaction, J. Catal., 242 (2006) 241-253. (IF=7.888)   

80.R. Zhang (张润铎), H. He*, X. Shi, C. Zhang, B. He, J. Wang, Preparation and emission characteristics of ethanol-diesel fuel blends, J. Environ. Sci., 16 (2004) 793-796. (IF= 4.302)

代表性论著:

撰写专著《典型化工有机废气催化净化基础与应用》1部,参编英文专著《Air Pollution Catalytic Control by Metal Promoted Zeolites》、《Application of Perovskite for Automobile Exhaust Purification》、《Heterogeneous Catalysts: Emerging Techniques for Design, Characterization and Applications3部,授权美国专利2项,国家发明专利20项。

专著:

(1). 张润铎、戴洪兴、刘志明、刘宁、刘雨溪、邓积光,典型化工有机废气催化净化基础与应用,“十三五”国家重点出版物出版规划项目——大气污染控制技术与策略丛书,科学出版社,北京,2016ISBN 978-7-03-049886-134万字。

(2). R. Zhang (张润铎), P. Li, H. Wang. “Catalytic Abatement of NOx Emissions over the Zeolite Catalysts” Chapter III VIII in <Heterogeneous Catalysts: Emerging Techniques for Design, Characterization and Applications>, Wiley-VCH Publishers, Inc., 2020, Germany, ISBN 978-3-527-34415, 2021, Pages 685-698.

(3). R. Zhang (张润铎), B. Chen. “Air Pollution Catalytic Control by Metal Promoted Zeolites” as Chapter II, Nova Science Publishers, Inc., New York, USA, 2012, Pages 55-92.

(4). R. Zhang (张润铎) and S. Kaliaguine, “Application of Perovskite for Automobile Exhaust Purification” as Chapter I in , Nova Science Publishers, Inc., New York, USA, 2008, Pages 1-79. 

讲授课程

Industrial Catalysis48学时,全英文留学生研究生专业课程)、大气污染成因与控制技术(36学时、全校性本科生核心课程)、大气污染的催化控制技术(专业选修课)、工业化学(通识类教育课程)

合作交流

先后与多位国际知名教授建立起国际合作关系,以名誉/客座教授身份与本科研团队开展科研探索。

1. Applied Catalysis B: Environmental期刊主编、韩国浦项工科大学In-sik Nam教授受聘为我校名誉教授

2. Journal of Catalysis期刊编辑、日本东京大学S. Ted OYAMA教授受聘为我校名誉教授

3. 欧洲科学院院士Jo KYO研究员受聘为我校名誉教授

4. 法国教授Sebastien ROYER受聘为我校客座教授

5. 法国国家科研中心Claude DESCORME教授受聘为我校客座教授

6. 作为大会主席,承办的第二届全国能源与环境科技学术会议在北京召开

7. 筹办第四届国际结构化催化剂及反应器大会

招生需求

勤奋、协作、热爱科学研究。

所属团队或实验室网页介绍

http://eec.buct.edu.cn/;公众号:北化能源环境催化科研团队