SCHOOL OF CHEMICAL ENGINEERING

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教授

刘 源

现任职称/职务:教授,博导
通讯地址:天津市津南区海河教育园区天津大学化工学院
电子邮箱:yuanliu@tju.edu.cn
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论著专利:

(1)       2022

The       Active pairs of Co-Co2C adjusted by La-doped CaTiO3 with perovskite phase for higher alcohol synthesis from syngas, P. F. Song, J. M. Wang, X. T. Wang*, N. Y. Li, Z. Y. Zhang, Y. Liu*, Chem. Eng. J., 439 (2022)135635 

(2)        Super anti-sintering Pt nanoparticle catalysts on perovskite support by Ru ions enhancing the interface bonding, Siran Zhang, Wei Zhou, Jianing Mao, Kang An, Ningyan Li, Tian Qin, Liwei Chen, Xi Liu*, Bingbao Mei, Zheng Jiang*, Zhong-Li Wang*, Yusuke Yamauchi and Yuan Liu*, J. Mater. Chem. A, 2022, DOI: 10.1039/D2TA00392A

(3)         Tailoring the surface and interface structures of copper-based catalysts for electrochemical reduction of CO2 to ethylene and ethanol, Ziyang Zhang, Lei Bian, Hao Tian, Yuan Liu,* Yoshio Bando, Yusuke Yamauchi, Zhong-Li Wang*, Small 2022, 2107450

(4)         Co0-Coδ+ active pairs tailored by Ga-Al-O spinel for CO2-to-ethanol synthesis, K. An, S. R. Zhang, H. Wang*, N. Y. Li, Z. Y. Zhang, Y. Liu*, Chemical Engineering Journal 433 (2022) 134606

(5)          Oxygen vacancies boosted Co-Co2C catalysts for higher alcohols synthesis from syngas, Shaoxia Guo, Guilong Liu, Yuan Zhang, Yuan Liu*, Applied Surface Science, 576 (2022) 151846

(6)           Self-optimized and renewable Ni-Co alloy@Co-Co2C catalyst for higher alcohols synthesis from syngas, Pengfei Song, Jiaming Wang, Guilong Liu, Ziyang Zhang, Ningyan Li, Xitao Wang, Wei Zhou, Y. Liu*, International Journal of Hydrogen Energy, 47(2022) 16933-16948

(7)           Stable and highly dispersed nickel catalysts on Ce-Zr-O solid solutions for CO2 methanation, Huayu Sun, Hong Wang*, Xuemei Liu, Ziyang Zhang, Siran Zhang, Xitao Wang*, Yuan Liu*, ChemistrySelect, 7 (2022) 1-9

(8)           预硫化温度对煤直接液化催化剂组分转变及其催化性能的影响,陈晨,李海杰,白杨,冯富祥,田磊,杨勇,刘源*,郭强*,燃料化学学报, 50 (2022-1) 54-62  

       

        2021

(9)          Ti3+ tuning the ratio of Cu+/Cu0 in the ultrafine Cu nanoparticles for boosting the hydrogenation reaction, Ziyang Zhang, Zhong-Li Wang*, Kang An, Jiaming Wang, Siran Zhang, Pengfei Song, Yoshio Bando, Yusuke Yamauchi*, and Yuan Liu*, Small, 17 (2021) 2008052

(10)          In situ topochemical carbonization derivative Co-Ni alloy@Co-Co2C for direct ethanol synthesis from syngas, J. M. Wang, G. L. Liu*, H. X. Zhong, P. F, Song, K. An, Z. Y. Zhang, A. Cao*, Y. Liu*, Applied Surface Science, 57 (2021) 149826

(11)          A highly selective catalyst of Co/La4Ga2O9 for CO2 hydrogenation to ethanol, K. An, S. R. Zhang, J. M. Wang, Q. Liu, Z. Y. Zhang, Y. Liu*, Journal of Energy Chemistry, 56 (2021) 486 – 495

(12)           La-Ce-O modified Rh-LaFeO3 on SiO2 for direct ethanol synthesis from syngas, H. X. Zhong, J. M. Wang, K. An, J. Yang, Z. Ma, H. Wang, Y. Liu*, Catal. Today, 368(2021)106-117

(13)            Co − Ni Alloy Nanoparticles on La-Doped SiO2 for Direct Ethanol Synthesis from Syngas, J. M. Wang, H. X. Zhong, K. An, Q. Liu, W. Jin, Y. Liu*, Ind. Eng. Chem. Res., 59(2020)19539−19552  

       

        2020

               SiO2 supported highly dispersed Pt atoms on LaNiO3 by reducing a perovskite-type oxide as the precursor and used for CO oxidation, Siran Zhang, Kang An, Chunyu Fang, Ziyang Zhang, Qiang Liu, Suhong Lu**, Yuan Liu*, Catalysis Today, 355(2020)222-230

(15)       Bi-active sites of stable and highly dispersed platinum and oxygen vacancy constructed by reducing a loaded perovskite-type oxide for CO oxidation, S. R. Zhang, K. An, S. S. Li, Z. Y. Zhang, R. L. Sun, Y. Liu*, Applied Surface Science, 532(2020)147455

(16)           Highly Dispersed Ni–Fe Alloy Catalysts on MgAl2O4 Derived from Hydrotalcite for Direct Ethanol Synthesis from Syngas, Q. Liu, J. M. Wang, K. An, S. R. Zhang, G. L. Liu*, Y. Liu*, Energy Technology, 8(9, 2020)2000205  ‏

(17)           Cerium-modified Ni-La2O3/ZrO2 for CO2 methanation, S. S. Li, G. L. Liu, S. R. Zhang, K. An, Z. Ma, L. H. Wang∗, Y. Liu*, Journal of Energy Chemistry, 43 (2020) 155–164

(18)            铈锆固溶体担载的镍催化剂对 CO2 甲烷化性能研究, 许宏图, 马宗燕, 王嘉明, 王红, 刘源*, 化学工业与工程,37(2020, 6)18-29

(19)              镧铈复合氧化物修饰的 Cu - Co 合金催化剂用于合成气直接制乙醇, 金武, 刘贵龙, 安康,王嘉明, 宋兆钰, 刘源*,化学工业与工程,37(2020, 6)1-9

(20)                 Ni-Co、Ni-Cu双金属合金催化剂用于CO甲烷化, 李晶, 刘贵龙, 王嘉明, 刘源*, 燃料化学学报, 48(2020, 5)610-618 

       

        2019

(21)               Preparation of La-Ce oxide-modified platinum-cobalt nano-bimetallic catalysts with perovskite-type composite oxides as precursors and their performance in CO oxidation, Zhi Min Zhang, Cheng Xiang Zhang, Kang An, Qiang Liu, Si-ran Zhang*, Yuan Liu*,  Journal of Fuel Chemistry and Technology, 47(2019-11)1357-1367

(22)                Synthesis of higher alcohols from syngas over Cu-Co alloy catalyst in slurry reactor浆态床反应器中Cu-Co合金催化剂用于合成气制低碳醇的研究, Chengxiang Zhang, Jiaming Wang, Huixian Zhong, Yuan Liu *, Journal of Shaanxi Normal University. Natural Science Edition陕西师范大学学报.自然科学版, 47(2019第一期)44-51

(23)                Direct synthesis of ethanol via CO2 hydrogenation over the Co/La-Ga-O composite oxide catalyst, Journal of Fuel Chemistry and Technology (J Fuel Chem Technol), Co /La-Ga-O 复合氧化物用于催化二氧化碳加氢制乙醇, 燃料化学学报, Jin-nan Zheng, Kang An, Jia-ming Wang, Jing Li, Yuan Liu, 2019, 47(6): 697-708

(24)                Nanoparticles of Rh confined and tailored by LaFeO3-La2O3 on SiO2 for direct ethanol synthesis from syngas, Huixian Zhong, Jiaming Wang, Kang An, Kegong Fang*, Yuan Liu*, Catalysis Science & Technology, 2019 (9) 3454 – 3468 DOI: 10.1039/C9CY00416E

(25)                Mixed oxides of La-Ga-O modified Co/ZrO2 for higher alcohols synthesis from syngas, Na Kang, Qilei Yang, Kang An, Shuangshuang Li, Lihong Zhang, Yuan Liu*, Catalysis Today, 330 (2019) 46–53, doi.org/10.1016/j.cattod.2018.01.034,

(26)                 Nano composite composed of MoOx-La2O3-Ni on SiO2 for storing hydrogen into CH4 via CO2 methanation, S. S. Li, S. X. Guo, D .D. Gong, N. Kang, K. G. Fang*, Y. Liu*, International Journal of Hydrogen Energy, 44(2019)1597-1609

(27)                Mutual Tailored Bimetallic Rh-Co Supported on La Modified SiO2 for Direct Ethanol Synthesis from Syngas, H. X. Zhong, J. M. Wang, S. X. Guo, K. G. Fang*, Y. Liu*, Ind. Eng. Chem. Res., 58(2019)2631 −2643 

(28)                Highly dispersed and stable Ni nanoparticles confined by MgO on ZrO2 for CO2 methanation, Jiaojiao Tan, Jiaming Wang, Ziyang Zhang, Zhi Ma, Luhui Wang*, Yuan Liu*, Applied Surface Science, 481(2019)1538–1548

            K-Modulated Co Nanoparticles Trapped in La-Ga-O as Superior Catalysts for Higher Alcohols Synthesis from Syngas, S. X. Guo, G. L. Liu*, T. Han, Z. Y. Zhang, Y. Liu*, Catalysts, 9(2019)218 


2018

A new catalyst of Co/La2O3-doped La4Ga2O9 for direct ethanol synthesis from syngas, Q. L. Yang, A. Cao, N. Kang, K. An, Z. T. Liu*, Y. Liu*, Fuel Processing Technology, 179 (2018) 42–52

Highly dispersed Pt species with excellent stability and catalytic performance by reducing a perovskite‑type oxide precursor for CO oxidation, C. Y. Fang, H. X. Zhong, Y. Wei, J. M. Wang, S. R. Zhang, L. H. Zhang, Y. Liu*, Transactions of Tianjin University, (2018), https://doi.org/10.1007/s12209-018-0175-1

Preparation of bimetallic Ni@Ru nanoparticles supported on SiO2 and their catalytic performance for CO methanation, Shuangshuang Li, Dandan Gong, Honggui Tang, Zhi Ma, Zhaotie Liu*, Yuan Liu*, Chem Eng J, 334(2018)2167–2178 https://doi.org/10.1016/j.cej.2017.11.124 

Mixed oxides of La-Ga-O modified Co/ZrO2 for higher alcohols synthesis from syngas, Na Kang, Qilei Yang, Kang An, Shuangshuang Li, Lihong Zhang, Yuan Liu*, Catalysis Today, (2018), doi.org/10.1016/j.cattod.2018.01.034 

Mixed oxides confined and tailored cobalt nanocatalyst for direct ethanol synthesis from syngas: a catalyst designing by using perovskite-type oxide as the precursor, Shaoxia Guo, Shuangshuang Li, Huixian Zhong, Dandan Gong, Jiaming Wang, Na Kang, Lihong Zhang, Guilong Liu,* and Yuan Liu*, Ind. Eng. Chem. Res., 57(2018)2404-2415, DOI: 10.1021/acs.iecr.7b04336 

Perovskite-type oxides as the catalyst precursors for preparing supported metallic nano catalysts: A review, Qilei Yang, Guilong Liu,* Yuan Liu*, Industrial & Engineering Chemistry Research, 57(2018)1-17, DOI: 10.1021/acs.iecr.7b03251 

         Lanthanum and cerium co-modified Ni/SiO2 catalyst for CO methanation from syngas, Dandan Gong, Shuangshuang Li, Shaoxia Guo, Honggui Tang, Hong Wang*, Yuan Liu*, Applied Surface Science, 434 (2018) 351–364


2017

        Cu-Co Alloy Nano-particles supported on SiO2 and modified by La and Y for Ethanol Synthesis from Syngas, Ying Hong, Qilei Yang,* Na Kang, Guilong Liu, Zhi Ma, Yuan Liu*, ChemistrySelect, 2(2017)7580 – 7589

Bimetallic Nano Cu-Co based catalyst for direct ethanol synthesis from syngas and its structure variation with reaction time in slurry reactor, Qilei Yang, Ang Cao, Na Kang, Hongyan Ning, Jiaming Wang, Zhao-Tie Liu*, Yuan Liu*, Industrial & Engineering Chemistry Research, 56 (2017) 2889 2898

Loading clusters composed of nanoparticles on ZrO2 support via a perovskite-type oxide of La0.95Ce0.05Co0.7Cu0.3O3 for ethanol synthesis from syngas and its structure variation with reaction time, Zhaoyu Song, Xiangpeng Shi, Hongyan Ning, Guilong Liu, Huixian Zhong, Yuan Liu*, Applied Surface Science, 405(2017)1-12 

Synthesis of higher alcohols from syngas over CuFeMg-LDHs/CFs composites, Ang Cao, Qilei Yang, Ying Wei, Lihong Zhang, Yuan Liu*, International Journal of Hydrogen Energy, 42(2017)17425-17434

Loading Ni/La2O3 on SiO2 for CO methanation from syngas, Shuangshuang Li, Honggui Tang, Dandan Gong, Zhi Ma, Yuan Liu*, Catalysis Today, 297(2017)298-307

Rh-Fe alloy derived from YRh0.5Fe0.5O3/ZrO2 for higher alcohols synthesis from syngas, Tong Han, Lin Zhao, Guilong Liu, Hongyan Ning, Yizhi YueYuan Liu*, Catalysis Today, 298 (2017) 69–76

Bimetallic Ni-Fe catalysts derived from a layered hydroxide precursor for CO methanation  from syngas, Honggui Tang, Shuangshuang Li, Dandan Gong, Yi Guan, Yuan Liu*, Frontiers of Chemical Science and Engineering, 112017-4) 613–623

        Carbon Fiber supported Rh-Mn in Close Contact with Each Other and its Catalytic Performance for Ethanol Synthesis from Syngas, Hong-yan Ning, Qi-lei Yang, Xiao Yang, Ying-xia Li, Zhao-yu Song, Yi-ren Lu, Li-hong Zhang,* Yuan Liu*, Acta Phys. -Chim. Sin. 33 (2017)18651874


  2016

    The deactivation of Cu-Co alloy nanoparticles supported on ZrO2 for higher alcohols synthesis from syngas, Guilong Liu, Ang Cao, Yuxia Geng, Yuan Zhang, Yuan Liu*, Fuel, 176(2016)1-10

(2)        Ni-Co alloy catalyst from LaNi1xCoxO3 perovskite supported on zirconia for steam reforming of ethanol, Lin Zhao, Tong Han, Hong Wang, Lihong Zhang, Yuan Liu, Appl. Catal. B: Environ, 1872016Jan13online19-29

(3)        La-modified Ni nanoparticles on zirconia derived from LaNiO3perovskite for CO methanation, Jing Si, Lin zhao, Jingge Liu, Shungshuang Li, GuiLong Liu, Yi Guan, Yuan Liu*, RSC Advances, 6(2016,15)12699-12707   

(4)        Growing layered double hydroxides on CNTs and its catalytic performance for higher alcohol synthesis from syngas, Ang Cao, Guilong Liu, Lianfang Wang, Jingge Liu, Yizhi Yue, Lihong Zhang, Yuan Liu*, Journal of Materials Science, 51(2016)5216–5231

(5)        Preparation of Core-shell Ag@CeO2 Nanocomposite via LSPR Photothermal Induced Interface Reaction, H X Zhong, Y Wei, Y Z Yue, L H Zhang, Y Liu *, Nanotechnology, 27(2016)135701-135707 doi:10.1088/0957-4484/27/13/135701

(6)        Hydrothermal synthesis of graphene-LaFeO3 composite supported with Cu-Co nanocatalyst for higher alcohol synthesis from syngas, T. Niu, GL. Liu, Y Chen, J.Yang, Jiang Wu*, Y. Cao*, Y. Liu*, Applied Surface Science, 364(2016,24Dec2015on-line)388-399

(7)        Bimetallic Cu-Co nanoparticles derived from hydrotalcite supported on carbon fibers for higher alcohols synthesis from syngas, Lianfang Wang, Ang Cao, Guilong Liu, Lihong Zhang, Yuan Liu*, Applied Surface Science, 360(2016-10Nov2015online)77-85

(8)        La1-xKxFe0.7Ni0.3O3 Catalyst for Ethanol Steam Reforming——The Effect of K-doping, Lin Zhao, Ying Wei, Yongmao Huang, Yuan Liu*, Catalysis Today,  2592016,Jan,子辑: 2430-437

2015

(9)        Nanoparticles of Cu-Co alloy derived from layered double hydroxides and their catalytic performance for higher alcohols synthesis from syngas, Ang Cao, Guilong Liu, Yizhi Yue, Lihong Zhang, Yuan Liu*, RSC Advances, 5 (2015)58804 - 58812

(10)    Loading oxide nano sheet supported Ni-Co alloy nanoparticles on the macroporous walls of monolithic alumina and their catalytic performance for ethanol steam reforming, Yizhi Yue, Fen Liu, Lin Zhao, Lihong Zhang*, Yuan Liu*, Int J Hydrogen Energy, 40(2015)7052-7063

(11)    Nanoparticles of Cu-Co alloy supported on high surface area LaFeO3—preparation and catalytic performance for higher alcohols synthesis from syngas, Gui-Long Liu, Dong-Ming Pan, Ting Niu, Ang Cao, Yi-Zhi Yue, Yuan Liu*, RSC Advances, 5(2015)31637-31647   

(12)    Forming ceria shell on Au-core by LSPR photothermal induced interface reaction, Ying Hong Qu, Fen Liu, Ying Wei, Chun Lei Gu, Lihong Zhang*, Yuan Liu*, Applied Surface Science, 343(2015)207–211

(13)    Nano bimetallic alloy of Ni-Co obtained from LaCoxNi1-xO3 and its catalytic performance for steam reforming of ethanol, Fen Liu, Yinghong Qu, Yizhi Yue, Guilong Liu, Yuan Liu*, RSC Advances, 5(2015)16837-16846

2014

(14)    Preparation of Ru/graphene-meso-macroporous SiO2 composite and their application to the preferential oxidation of CO in H2-rich gases, T. Niu, GL. Liu, Y. Liu*, Appl. Catal. B: Environ, 154-155201482-92

(15)    The graphene-meso-macroporous SiO2 supported Pt-Ni alloy nanocatalyst for preferential oxidation of CO in H2-rich gases, T. Niu, WW. Zhao, GL.Liu, A. Cao, LH. Zhang, Y. Liu*, Int J Hydrogen Energy, 39 (2014)18929-18939

(16)    Bi-metal Cu-Co from LaCo1-xCuxO3 perovskite supported on zirconia for the synthesis of higher alcohols, Guilong Liu, Yuxia Geng, Dongming Pan, Yuan Zhang, Ting Niu, Yuan Liu*, Fuel Processing Technology, 128 (2014) 289296

(17)    Preparation of bimetal Cu-Co nanoparticles supported on meso-macroporous SiO2 and their application to higher alcohols synthesis from syngas, Guilong Liu, Ting Niu, Dongming Pan, Fen Liu, Yuan Liu*, Applied Catalysis A: General, 483(2014)10–18

(18)    A cost-effective process for synthesizing magnesium borate nanorods and its mechanical property for reinforced Nylon-6 compositesLicong Wang, Yushan Zhang, Dan Chen, Yuan Liu*, Yuqi Wang, Zeliang Dong, Yongchao Lu and Xiping Huang, Nano, 9(2014,7)1450078

(19)    Study on the preparation of Ni-La-Ce oxide catalyst for steam reforming of ethanol, Fen Liu, Lin Zhao, Hong Wang, Xue Bai, Yuan Liu*, Int J Hydrogen Energy, 39(2014)10454-10466

(20)    Highly dispersed Ru on K-doped meso-macroporous SiO2 for the preferential oxidation of CO in H2-rich gases, T. Niu, LH. Zhang, Y. Liu*, Int J Hydrogen Energy, 39(2014)13800-13807

(21)    Co-Ni bimetal catalyst supported on perovskite-type oxide for steam reforming of ethanol to produce hydrogen, Zijun Wang, Changxu Wang, Shunquan Chen, Yuan Liu*, Int J Hydrogen Energy, 39 (2014)5644-5652

(22) A simple method for growing hexaaluminate on the surface of FeCrAl alloy, D. Chen, L.H. Zhang*, H.Z. Li, Y. Liu*, Applied Surface Science, 301(2014)280-288

(23)      Cu-Co bi-metal catalyst prepared by perovskite CuO/LaCoO3 used for higher alcohol synthesis from syngasYuzhen Fang, Yuan Liu, Wei Deng, Junhai Liu, Journal of Energy Chemistry, 2014, 23 (4): 527-534

2013

(24)      Potassium promoted Ru/meso-macroporous SiO2 catalyst for the preferential oxidation of CO in H2-rich gases, Ting Niu, Changxu Wang, Li Hang Zhang, Yuan Liu*, Int J Hydrogen Energy, 38 (2013) 7801-7810

(25)      La1-x CaxFe1-x CoxO3——a stable catalyst for oxidative steam reforming of ethanol to produce hydrogen, Z J Wang, H Wang,, Y Liu*, RSC Advances, 3201310027-10036

(26)      Coating mesoporous alumina on the macropores’ walls of monolithic α-Al2O3 as catalyst support for preferential oxidation of CO, Suhong Lu, Lihong Zhang, Yuan Liu*, RSC Advances, 320135639-5648

(27)      Vertical and in situ growth of hexaaluminate embedded in alumina intermediate layer with high stability, D Chen, L H Zhang*, Y Liu*, RSC Advances, 3(8) (2013) 2534-2537

(28)      Aluminumphosphate Molecular sieves supported Pt-Co catalysts for preferential oxidation of CO in H2-rich gases, ChangXu Wang, Lihong Zhang, Yuan Liu*, Appl. Catal. B: Environ, 136–137(2013)48–55

(29)      Preparation of meso-macroporous α-alumina using carbon nanotube as the template for the mesopore and their application to the preferential oxidation of CO in H2-rich gases, Journal of Porous Materials, N Ting, L M Shen, Y* Liu, 20(2013)789-798

(30)      Co/CeO2 for ethanol steam reforming: effect of ceria morphology, H Wang, LJ Zhang, M Li, Y Liu*, X Bai, J Rare Earth, 31(2013)565-571

(31)      Influence of preparation method on performance of Ni-CeO2 catalysts for reverse water-gas shift reaction, LH Wang, H Liu, Y Liu, Y Chen, SQ Yang, J Rare Earth, 31(2013)559-564

2012

(32)      Perovskite LaFeO3 supported bi-metal catalyst for methanation of CO from syngas, Hong Wang, Yuzhen Fang, Yuan Liu*, Xue Bai, Journal of Natural Gas Chemistry, 21(2012) 745-752

(33)      Preparation of meso-macroporous carbon nanotube-alumina composite monoliths and their application to the preferential oxidation of CO in hydrogen-rich gases, Suhong Lu, Yuan Liu*, Appl. Catal. B: Environ., 111-112(2012)492-501

(34)      Graphene supported nano particles of Pt-Ni for CO oxidation, C Zhang, W Lv, Q Yang, Y Liu*, Applied Surface Science, 258(2012-20) 7795-7800

(35)      Meso-macroporous Al2O3 supported Ru catalysts for CO preferential oxidation in hydrogen-rich gases, Limiao Shen, Cheng Zhang, Yuan Liu*, Journal of Natural Gas Chemistry, 21(2012)653-660

(36)      Steam Reforming of Ethanol over Ni/Ce0.7Pr0.3O2 Catalyst, H Wang, L J Zhang, MZZ Yuan, TY Xu, Y Liu* J Rare Earth, 30(2012) 670

2011

(37)      LaFeO3 supported nano Co-Cu catalysts for higher alcohol synthesis from syngas, Y Z Fang, Y Liu*, L H Zhang, Appl. Catal. A Gen, 397(2011)183-191

(38)      Regenerable and durable catalyst for hydrogen production from ethanol reforming, S Q Chen, Y D Li, Y Liu*, X Bai, Int J Hydrogen Energy, 36(2011)5849-5856

(39)      Carbon nanotube supported Pt-Ni catalysts for preferential oxidation of CO in hydrogen-rich gases, Suhong Lu, Cheng Zhang, Yuan Liu*, Int J Hydrogen Energy, 3620111939-1948

(40)      CuO-CeO2/Al2O3/FeCrAl monolithic catalysts prepared by in situ combustion synthesis method for preferential oxidation of carbon monoxide, S H Zeng, H Q Su, Y Liu, Y Wang, D F Wang, J Rare Earth, 29(2011)69-73

(41)      Zirconia modified monolithic macroporous Pt/CeO2/Al2O3 catalyst used for water-gas shift reaction, H Liang, HG Yuan, F Wei, XW Zhang, Y Liu, J Rare Earth, 29(2011)753-757

2010

(42)      Stability of Co–Ce–Mn mixed-oxide catalysts for CO preferential oxidation in H2-rich gases, Qiang Guo, Shunquan Chen, Yuan Liu*, Yaquan Wang, Chemical Engineering Journal, 1652010846-850

(43)      Meso-macroporous monolithic CuO-CeO2/γ/α-Al2O3 catalysts for CO preferential oxidation in hydrogen rich gas: Effect of loading methods, Chunlei Gu, Suhong Lu, Jie Miao, Yuan Liu*, Yaquan Wang, Int J Hydrogen Energy, 35 (20106113-6122

(44)      Meso-macroporous Monolithic CuO-CeO2/γ-Al2O3 Catalysts and Their Catalytic Performance for Preferential Oxidation of CO, Chunlei Gu, Jie Miao, Yuan Liu*, Yaquan Wang, J Mater Sci,  45(2010-20)5660

(45)      Meso–macro-porous monolithic Pt–Ni/Al2O3 catalysts used for miniaturizing preferential carbon monoxide oxidation reactor, Suhong Lu, Yuan Liu*, Yaquan Wang, Chem. Commun., 462010634-636, DOI: 10.1039/b912769k

(46)      Theoretical studies on the mechanism of chlorination reaction of trichlorogermyl acrylic acid, Y Z Fang, W Y Ma, J H Zhou, Y Liu, JOURNAL OF STRUCTURAL CHEMISTRY, 51(2010)577-581

2009

(47)      Perovskite La–St–Fe–O (St=Ca, Sr) supported nickel catalysts for steam reforming of ethanol: The effect of the A site substitution, S Q Chen, H Wang, Y Liu*, Int J Hydrogen Energy, 34(20097995-8005

(48)      LaFeyNi1-yO3 supported nickel catalysts used for steam reforming of ethanol, S Q Chen, Y Liu*, Int J Hydrogen Energy, 3420094735-4746

(49)      Three-dimensionally Ordered Macro-porous CuO-CeO2 Used for Preferential Oxidation of Carbon Monoxide in Hydrogen-rich Gases, Y Zhang, H Liang, X Y Gao, Y Liu*, Catal Comm, 1020091432-1436

(50)      Macroporous alumina monoliths prepared by filling polymer foams with alumina hydrosols, Y Zhang, H Liang, C Y Zhao, Y Liu*, J Mater Sci, 44 (2009):931–938

(51)      Macroporous Monolithic Pt/γ-Al2O3 and K–Pt/γ-Al2O3 Catalysts Used for Preferential Oxidation of CO, Y Zhang, C Y Zhao, H Liang, Y Liu*, Catal Lett, 127(2009):339–347

(52)      Ceria Modified Three-Dimensionally Ordered Macro-Porous Pt/TiO2 Catalysts for Water-Gas Shift Reaction, Hao Liang, Yuan Zhang, Yuan Liu, J Rare Earth, 27(3)(2009)425-430

(53)      Monolithic macroporous catalysts—a new route for miniaturization of water-gas shift reactor, H Liang, Y Zhang, Y Liu*, Journal of Natural Gas Chemistry, 18(2009)436-440

2008

(54)      Three-dimensionally ordered macro-porous Pt/TiO2 catalyst used for water-gas shift reaction, H Liang, Y Zhang, Y Liu*, Journal of Natural Gas Chemistry 17(2008)403–408

(55)      Low-temperature CO Oxidation over Coprecipitated Co-Ce-Mn oxides, Q Guo, Z Tang, Y Liu*, Chem Lett, 37(12) (2008)1274

(56)      Steam reforming of ethanol over Ni/CexTi1-xO2 Catalysts, J L Ye, Y Q Wang, Y Liu*, H Wang, International Journal of Hydrogen Energy, 2008, 33226602

(57)      Study on the carbon deposition in steam reforming of ethanol over Co/CeO2 catalyst, H Wang, Y Liu*, L Wang, Y N Qin, Chem Eng J, 145(2008)25

(58)      MnOx modified Co3O4-CeO2 catalysts for the preferential oxidation of CO in H2-rich gasesQiang Guo and Yuan Liu*Appl Catal B, 82(2008)19-26

(59)      Nd or Zr modified CuO-CeO2/Al2O3/FeCrAl monolithic catalysts for preferential oxidation of carbon monoxide in hydrogen rich gasesS. H. Zeng and Y. Liu*Applied Surface Science, 254 (2008) 4879–4885

(60)      Highly Active and Selective Ni–CeO2 Catalyst for Water–Gas Shift ReactionLuhui Wang and Yuan Liu*Chemistry Letters2008371):74

(61)      Reverse water gas shift reaction over co-precipitated Ni–CeO2 catalystsLu-Hui Wang, Shao-Xing Zhang, Yuan Liu*J Rare Earth, 2008, 261:66

(62)      NiO-Ce0.5Zr0.5O2 catalysts prepared by citric acid method for steam reforming of ethanolJ L YeY Wang, Y Liu*, J rare earth2008266831

(63)      NiO/LaMnO3催化剂用于乙醇水蒸汽重整反应, 林,陈顺权,刘 *,物理化学学报,2008245):849 {Acta Phys. Chim. Sin., 2008, 24(5): 849-854}

(64)      微乳液法制备的CuO-CeO2/Al2O3/FeCrAl整体式催化剂催化一氧化碳优先氧化反应,曾尚红,刘源*,催化学报,2008295):436

(65)      Oxidative reformings of methane to syngas with steam and CO2 catalyzed by metallic Ni based monolithic catalysts, Yunhua Li, Yaquan Wang*, Zhaoguang Zhang, Xuebin Hong, Yuan Liu, Catalysis Communications, 2008, 9: 1040–1044

2007

(66)      CuO-CeO2/Al2O3/FeCrAl monolithic catalysts prepared by sol-pyrolysis method for preferential oxidation of carbon monoxide, S H Zeng, Y Liu*, Y Q Wang, Catal Lett, 2007117 (3-4): 119-125

(67)      Steam reforming of ethanol on Co3O4/CeO2 catalysts prepared by different methods, H Wang, J L YeY Liu*, Y D Li, Y N Qin, Catal Today, 2007129305-312

(68)      Preferential Oxidation of CO in H2 over Co3O4-CeO2 Catalysts, Qiang Guo, Yuan Liu*, React Kinet Catal Lett, 2007, 92 (2007) 19-25

(69)      Mesoporous CeO2-Supported Co3O4 Catalysts for CO Preferential Oxidation in H2-Rich GasesGuo Qiang, Wu Meiling, Liu Yuan*, Bai XueChin J Catal, 2007, 28(11): 953

2006及以前论文

(70)      Partial Oxidation of Methane over Ni/Ce-Ti-O catalysts, Y Zhang, X B Wen, Z X Li, Y Liu*, Chem Eng J, 2006121 (2-3): 115-123

(71)      Study on La modified Ni/γ-Al2O3 catalysts for Partial oxidation of methaneJ L Ye, H C Duan, Z X Li, Y Liu*, J rare earth2006243302

(72)      Valence State of Active Copper in CuOx/CeO2 Catalysts for CO OxidationS H Zeng, X Bai, X Y Wang, W G Yu, Y Liu*J rare earth2006242177

(73)      乙醇水蒸气重整Co/CeO2催化剂,王红,刘鹏翔,刘源*,秦永宁,催化学报,20062711976

(74)      Preferential Oxidation of Carbon Monoxide in Excess Hydrogen over Au/Co3O4-CeO2 CatalystsS H Zeng, X Bai, Y Liu*J Rare Earth2005236):695-700

(75)      Preferential Oxidation of CO in H2 over CuO/CeO2 Catalysts Y Liu*, X Y Wang, X Bai, J Rare Earth, 2005231):41

(76)      柠檬酸络合法制备NiO-CeO2-TiO2复合氧化物用于甲烷催化部分氧化的研究,张媛 李增喜 闻学兵 刘源*,催化学报,20052612):1059

(77)      Preparation of Ce – Zr - O solid solutionYuan Liu, Yanqing Zai and Yongdan Li, React Kinet Catal Lett, 2004822):295

(78)      Preferential Oxidation of CO in H2 Over Cu-CeO2 Catalysts, Yuan Liu, Qi Fu and Maria Flytzani-Stephanopoulos, Catal. Today, 200493-95: 241-246

(79)      Preparation of high surface area La1-xAxMnO3 (A = Ca, Sr or Ba) ultra-fine particles used for CH4 oxidation, Yuan  LiuHaitao. Zheng, et. al., Chem Eng J,2002, 89(1-3): 213

(80)      Preparation and catalytic performance of La0.5RE0.1Sr0.4MnO3 (RE: Y, Dy, Sm, or Ce) ultra-fine particles in methane combustion, Y. Liu, H. T. Zheng, et. al., React Kinet Catal Lett, 2002,76(1): 27

(81)      Preparation of La0.9Re0.1MnO3 ultra-fine particles used for CH4 oxidation, Yuan Liu, Haitao Zheng, et al., J Rare Earth, 2002, 20(5): 457

(82)      氧化铈气凝胶担载氧化铜催化剂上的一氧化碳氧化反应, 刘源,孙海龙等, 催化学报,2001,22(5)453

(83)      氧化铈气凝胶担载氧化铜催化剂的TPR研究, 刘源,孙海龙等, 催化学报,2001,22(6)523

(84)      New methods to prepare ultra-fine particles of some perovskite-type oxides, Cui X. L and Y. Liu*, Chem Eng J, 2000, 78: 205

(85)      Structure and activity of Cu/ZrO2 and K-Cu/ZrO2 catalysts. Yuan Liu, Zhong Bing, et. al. Catal Today, 1996, 30:177

 

 

专利

1、 钙钛矿型La1-x-yBaxDyyMnO3复合氧化物超细粒子及其制备方法, 刘源,郑海涛,刘全生, 申请号:01109482.6,公开号:CN1375449A,专利号:04162030

2、 一种稀土氧化物超细粒子的制备方法, 刘源,崔秀兰,王颖, 申请号:01109483.4,公开号:CN1375458A,专利号:04162029

3、 铈钛复合氧化物负载金属催化剂及制备方法和应用,刘源,白雪,张媛,叶季蕾,闻学兵,王晓燕,公开号:CN1676218A,专利号:ZL200510013099.X

4、 富氢气体中CO优先氧化的方法,郭强,刘源,曾尚红,公开号:CN1817788,专利号:ZL200610013034.X

5、 乙醇水蒸气重整制氢的方法,王红,刘鹏翔,叶季蕾,刘源,公开号:CN1792766,专利号:200610013035.4

6、  FeCrAl载体上涂覆铜铈催化剂的制备方法,曾尚红,刘源,郭强,公开号:CN1830566,专利号:200610013469.4

7、 富氢气体中CO优先氧化净化的方法,郭强,刘源,公开号:CN101024490A,专利号:200710056738.x

8、 整体型大孔氧化钛的制备方法,刘源,梁皓,张媛,专利号:200810052020.8

9、 用于水煤气变换反应的大孔Pt/CeO2催化剂及其制备方法,刘源,梁皓,张媛,专利号:200710060139.5

10、整体型大孔氧化铝的制备方法,刘源,张媛,梁皓,赵存雨,专利号:200710060140.8

11、整体型大孔氧化硅的制备方法,刘源,张媛,梁皓,赵存雨,专利号:200810052019.5

12、加氧乙醇水蒸汽重整用的钙钛矿催化剂及其制备方法,刘源,陈顺权,申请号:201010175862.X专利号:201010175862.X

13、用于富氢气体中CO净化的介孔-大孔整体式催化剂及其制备方法,刘源,卢素红,张媛,申请号:200910069436.5,专利号:200910069436.5

14、刘源,刘贵龙,潘东明,曹昂,纳米铜钴双金属催化剂及制备和应用,专利号:201410006546.8  

15、刘源,耿玉侠,曹昂,钱震,刘贵龙,张媛,刘竞舸,刘文,潘东明,一种用于合成气制低碳醇的催化剂、其制备方法和应用,申请号:201410271568.7,申请日:20140617

16、刘源等,一种负载型氧化物包覆金属核壳催化剂及其制备方法,申请号:201410452301.8,申请日:20140905

17、刘源,王联防,曹昂,刘贵龙,韩通,用于低碳醇合成的碳纤维复合纳米铜钴合金催化剂及制备方法,申请号:2014107788415,申请日:20141215

18、刘源,曹昂,刘贵龙,王联防,韩通,用于低碳醇合成的碳纳米管复合的纳米钴铜合金催化剂及制备方法,申请号: 2014107794454,申请日:20141215

19、刘源;刘贵龙;曹昂;王联防;韩通,LaFeO3负载的CuCo合金催化剂的制备和应用,申请号:201510066860X,申请日:201529

20、刘源,曹昂,刘贵龙,王联防,岳义智,混合氧化物掺杂的纳米铜钴合金催化剂的制备和应用,专利号:2015100661954

21、刘源,刘贵龙,曹昂,王联防,韩通,四方晶型的二氧化锆负载的CuCo合金催化剂及制备和应用,申请号:2015100762813,申请日:2015212

22、刘源,司静,李双双,刘竞舸,一种纳米金属镍催化剂及制备方法和应用,专利号:201510836807.3 

23、刘源,杨其磊,韩通,刘贵龙,曹昂,钙钛矿为前驱体的负载型铑基催化剂的制备与应用,专利申请号:201610600218X,申请日:2016-07-23

24、刘源,杨其磊,康娜,郭少霞,王嘉明,钙钛矿型复合氧化物为前驱体的钴镓基催化剂及其制备和应用,专利申请号:201710270774.X,申请日:2017-04-14