大连理工大学  登录  English 
郭洪臣
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教授   博士生导师   硕士生导师

性别: 男

毕业院校: 大连理工大学

学位: 博士

所在单位: 化工学院

学科: 工业催化. 物理化学

办公地点: 大连理工大学 西部校区 化工实验楼B521

联系方式: 0411-84986120

电子邮箱: hongchenguo@dlut.edu.cn

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英文文章

 

53The Promotion of Argon and Water Molecule on Direct Synthesis of H2O2 from H2 and O2 Yanhui Yi, Li Wang, Juan Yu, Quanren Zhu, Changgong Meng, Jialiang Zhang, Hongchen Guo* 

AIChE. J. 2018 (Accepted, DOI:10.1002/aic.15999, IF: 2.98)

 

52CH4/NH3 Plasma Coupling Reaction for One-Pot Synthesis of N, N-dimethyl Cyanamide and Amino Acetonitrile, Yanhui Yi, Rui Zhang, Li Wang, Jinhui Yan, Xiaolei Yu, Xunxun Wang, Jialiang Zhang, Hongchen Guo*

ACS Omega, 2018 (Accepted,DOI:10.1021/acsomega.7b01060).

 

51Plasma-Triggered CH3OH/NH3 Coupling Reaction for Synthesis of Nitrile Compounds, Yi Yanhui,* Wang Xunxun, Wang Li, Yan Jinhui, Zhang Jialiang, Guo Hongchen*

 Acta Phys.-Chim. Sin. 2018, 34(3)247-255. (IF:0.767)

 

50Atmospheric-pressure and room temperature synthesis of methanol through plasma-catalytic hydrogenation of CO2 , Li Wang,Yanhui Yi,Hongchen Guo,Xin Tu*

ACS Catal.,  2018, 8, 90-100 (IF: 10.614).

 

49One-step reforming of CO2 and CH4 to high-value liquid chemicals and fuels at room temperature via plasma-driven catalysis, Li Wang,Yanhui Yi,Chunfei Wu,Hongchen Guo,Xin Tu*

Angew. Chem. Int. Ed. 2017,56,13679-13683 (IF: 11.994)

 

48Preparation and Performance of Supported Bimetallic Catalysts for Hydrogen Production from Ammonia Decomposition by Plasma-catalysis Method, Sun Shuai-Qi, Yi Yan-Hui, Wang Li,  Zhang Jia-Liang,  Guo Hong-Chen*

 Acta Phys.-Chim. Sin. 2017,33(6), 1123-1129 (IF:0.767)

 

47Synergy of DBD plasma and Fe based catalyst in NH3 decomposition: plasma enhancing adsorption step, Li Wang, Yanhui Yi, Yanjun Guo, Yue Zhao, Jialiang Zhang, Hongchen Guo(*)

 Plasma Processes and Polymers 201714e1600111. ( IF: 2.846)

 

46Yanhui YiChao XuLi WangJuan YuQuanren ZhuShuaiqi SunXin TuChanggong MengJialiang ZhangHongchen Guo(*), Selectivity control of H2/O2 plasma reaction for direct synthesis of high purity H2O2 with desired concentration.

Chemical Engineering Journal2017, 313: 37~46 (IF: 6.216)

 

45Yi, YanhuiWang, LiLi, GangGuo, Hongchen*.  A review on research progress in the direct synthesis of hydrogen peroxide from hydrogen and oxygen.

Catalysis Science & Technology, 2016, 6: 1593-1610,  (IF: 5.287)

 

44Wang, LiYi, YanhuiZhao, YueZhang, RuiZhang, JialiangGuo, Hongchen(*), NH3 Decomposition for H-2 Generation: Effects of Cheap Metals and Supports on Plasma-Catalyst Synerg.

ACS Catalysis, 2015, 5: 4167-4174 (IF: 9.307)

 

43Liu, Chunyan(#)Kong, DejiaGuo, Hongchen(*), The morphology control of zeolite ZSM-5 by regulating the polymerization degree of silicon and aluminum.

Microporous and Mesoporous Materials, 2014, 193: 61-68 (IF: 3.349)

 

42Zhao, YueWang, LiZhang, JialiangGuo, Hongchen(*),

Enhancing the ammonia to hydrogen (ATH) energy efficiency of alternating current arc discharge

International Journal of Hydrogen Energy, 2014, 39: 7655-7663 (IF: 3.205)

 

41Zhao, WenpingZhang, BaozhuWang, GuiruGuo, Hongchen(*), Methane formation route in the conversion of methanol to hydrocarbons.

Journal of Energy Chemistry, 2014, 23: 201-206,  (IF: 2.322)

 

40Chunyan Liu, Wenying Gu, Dejia Kong, Hongchen Guo, The significant effects of the alkali-metal cations on ZSM-5 zeolite synthesis: From mechanism to morphology,

Microporous and Mesoporous Materials, 2014, 183(1): 30-36 (IF: 3.349)


39Yanhui Yi, Juncheng Zhou, Jialiang Zhang, Tianlong Gao, Hongchen Guo, Continuous and Scale-Up Synthesis of High Purity H2O2 by Safe Gas-Phase H2/O2 Plasma Reaction,

AIChE Journal, 2014, 60: 415-419 (IF: 2.98)


38Li Wang, Yue Zhao, Chunyang Liu, Weimin Gong and Hongchen Guo, Plasma driven ammonia decomposition on a Fe-catalyst: eliminating surface nitrogen poisoning,

Chem. Commun., 2013, 49: 3787-3789 (IF: 6.567)


37Yue Zhao, Li Wang, Jialiang Zhang, Weimin Gong, Hongchen Guo, Decomposition of ammonia by atmospheric pressure AC discharge: Catalytic effect of the electrodes,

Catalysis Today, 2013 ,211: 72-77. (IF: 4.312)


36Yanhui Yi, Juncheng Zhou, Hongchen Guo* , Jianli Zhao, Ji Su, Li Wang, Xiangsheng Wang, and Weimin Gong, Safe Direct Synthesis of High Purity H2O2 through a H2/O2 Plasma Reaction,

Angewandte Chemie International Edition, 2013, 52: 8446-8449 (IF: 11.709)


35Jiaxu Liu, Ai Sha Nu La Hong , Ning He, Guodong Liu, Cuicui Liang, Xiongfu Zhang and Hongchen Guo, The crucial role of reaction pressure in the reaction paths for i-butane conversion over Zn/HZSM-5,

Chem. Eng. J. 2013, 218: 1-8 (IF: 6.216)


34Jing Zhang, Qichao Yuan, Jialiang Zhang, Teng Li and Hongchen Guo, Direct synthesis of ethylene glycol from methanol by dielectric barrier discharge,

Chem. Commun, 2013, 49: 10106--10108 (IF: 6.567)


33Ai sha Nu La Hong, Liu Jiaxu, He Ning and Guo Hongchen, Catalytic conversion of n-butane over Au-Zn-modified nano-sized HZSM-5,

Chinese Journal of Catalysis, 2013, 34(6):1262-1266 (IF: 2.628)


32Wng LL, Xiong G*, Su J,Li P,Guo HC, In Situ UV Raman Spectroscopic Study on the Reaction Intermediates for Propylene Epoxidation on TS-1,

Journal of Physical Chemistry C, 2012,116(16): 9122-9131 (IF: 4.509)


31wang L, Xin Q,Zhao Y,Zhang Ge, Dong Jie, Guo Weimin, Guo HC*, In Situ FT-IR Studies on Catalytic Nature of Iron Nitride: Identification of the N Active Site,

ChemCatChem, 2012,4(5): 624-627 (IF: 4.724)


30Ji Su,Guang Xiong,Juncheng Zhou,Wenhuan Liu, Danhong Zhou,Guiru Wang,Xiangsheng Wang,Hongchen Guo, Amorphous Ti species in titanium silicalite-1: Structural features, chemical properties, and inactivation with sulfosalt ,

Journal of Catalysis, 2012, 288: 1–7 (IF: 7.354)


29Lin Sun, Xiangsheng Wang, Jichun Li, An Ma, Hongchen Guo*, Effect of acidity and diffusibility on coke deactivation over nano-sized HZSM-5 zeolites.

Reaction Kinetics, Mechanisms and Catalysis, 2011, 102: 235–247 (IF: 1.265)


28Juncheng Zhou, Yue Xu,Xu Zhou ,Junsong Gong,Yanhua Yin,Hanyong Zheng, and Hongchen Guo* Direct Oxidation of Methane to Hydrogen Peroxide and Organic Oxygenates in a Double Dielectric Plasma Reactor,

ChemSusChem, 2011, 4: 1095-1098 (IF: 7.116)


27Ji SUJuncheng ZHOU,chunyan liu,xiangsheng wang,hongchen guo*, Gas Phase Epoxidation of Propylene with TS-1 and in Situ H2O2 Produced by a H2/O2 Plasma,

Chinese Journal of Catalysis, 2010, 31(9-10): 1195-1199 (IF: 2.628)


26Peng Guo, chunyan liu,Gao Min,Xiangsheng Wang, Hongchen Guo*. Effect of ZSM-5 Crystal Size on Properties of Supported TiO2 Photocatalyst ,

Chinese Journal of Catalysis, 2010, 31(5): 573-578 (IF: 2.628)


25Peng Guo, Xiangsheng Wang, Hongchen Guo*. TiO2/Na-HZSM-5 nano-composite photocatalyst: Reversible adsorption by acid sites promotes photocatalytic decomposition of methyl orange.

Applied Catalysis B- Environment, 2009, 90: 677-687. (IF: 8.328)


24Zhao Jianli; Zhou Juncheng; Guo Hongchen*; Wang Xiangsheng; Gong Weimin. Scale-up synthesis of hydrogen peroxide from H2/O2 with multiple parallel DBD tubes.

Plasma Science & Technology, 2009, 11(2): 181-186. (IF: 0.659)


23LIU Wenhuan; GUO Peng; SU Ji; HU Jia; WANG Yanmei; LIU Na; GUO Hongchen*, Acidity Characterization and Acid Catalysis Performance of Titanium Silicalite (TS-1).

Chinese Journal of Catalysis, 2009, 30(6): 482-484. (IF: 2.628)

22Wang WS, Guo HC, Liu HO, Wang XSPromoting effect of SO42- on desulfurization activity on Ni/supports for fluidized catalytic cracking (FCC) gasoline

Energy & Fuels, 2008, 22(5): 2902-2908  (IF: 2.853)


21Wang, Jincheng; Chao, Shihai; Li, Jichun; Guo, HongchenAromatization of fluid catalytic cracking light gasoline over nano-HZSM-5 zeolite catalyst

Shiyou Huagong/Petrochemical Technology, 2008, 37: 776-782 (IF: 0.388)


20Wang WS, Guo HC, Liu HO, Wang XSHydrodesulfurization activity of nano-sized HZSM-5 catalyst modified by NiO or NiSO4

Chinese Journal of Catalysis2008, 29(8): 705-709 (IF: 2.628)


19Wang, Anjie; Qin, Minglei; Guan, Jie; Wang, Li; Guo, Hongchen; Li, Xiang; Wang, Yao; Prins, Roel; Hu, YongkangThe synthesis of metal phosphides: Reduction of oxide precursors in a hydrogen plasma

Angewandte Chemie - International Edition, 2008, 47: 6052-6054 (IF: 11.709)


18Zhou JH, Zhao Y , Song JF, Aisha NH, Hu J, Chen LX, Guo HCAromatization of C-5-C-8 alkane mixture over modified nano-sized HZSM-5 zeolite catalysts

Chinese Journal of Catalysis2008, 29(7): 665-670 (IF: 2.628)


17Lidong Chen, Xiangsheng Wang, Xinwen Guo, Hongchen Guo, Hai’ou Liu and Yongying ChenIn situ nanocrystalline HZSM-5 zeolites encaged heteropoly acid H3PMo12O40 and Ni catalyst for hydroconversion of n-octane

Chemical Engineering Science, 2007, 62(16): 4469-4478 (IF: 2.75)


16Lidong Chen, Xiangsheng Wang, Hongchen Guo, Xinwen Guo, Yanan Wang, Hai’ou Liu and Guimin Li, Hydroconversion of n-octane over nanoscale HZSM-5 zeolites promoted by 12-molybdophosphoric acid and Ni

Catalysis Communications, 2007, 8: 416-423 (IF: 3.389)


15Peiqing Zhang, Xinwen Guo, Hongchen Guo and Xiangsheng WangStudy of the performance of modified nano-scale ZSM-5 zeolite on olefins reduction in FCC gasoline

J. of Molecular Catalysis A: Chemical, 2007, 261: 139-146 (IF: 3.958)


14 Jianli Zhao, Juncheng Zhou, Ji Su, Hongchen Guo, Xiangsheng Wang, and Weimin Gong,

AIChE J. 2007, 53: 3204-3209 (IF: 2.98)


13Liu N, Guo HC*, Wang XS, Chen LX, Zou LJ, Increasing the propylene epoxidation activity of TS-1 catalysts by hydrothermal treatment of ammonia solution,

Reaction Kinetics and Catalysis Letters, 2005, 87 (1): 77-83 (IF: 1.265)


12Juncheng Zhou, Hongchen Guo*, Xiangsheng Wang, Mingxing Guo, Jiangli Zhao, Lixing Chen, Weimin GongDirect and Continuous Synthesis of Concentrated Hydrogen Peroxide by the Gaseous Reaction of H2 / O2 Non-equilibrium Plasma

Chem. Commun. 2005, 1631-1633. (IF: 6.567)


11Zhang Peiqing, Wang Xiangsheng, Guo Xinwen, Guo Hongchen, Zhao Leping, Hu Yongkang, Characterization of Modified Nano-Scale ZSM-5 Zeolite and its Application in the Olefins Reduction in FCC Gasoline,

Catalysis Letters, 2004, 92:1-2 (IF: 2.294)


10Zhoubo XU, Hongchen GUO*, Xiangsheng WANG, Peiqing ZhANG,et al,Enhancing the Deactivation Durability of Nano-sized HZSM-5 for Aromatization by Adjusting Its Ratio of Lewis/Bronsted Acid Sites,

Chinese Chemical Letters, 2004, 15: 1123-1126. (IF: 1.947)


9Fang Xiangchen, Zhao Leping, Hu Yongkang, Guo Hongchen, Gasoline sulphur removal and olefins reduction, ptq (petroleum technology quarterly)catalysis, 9, 2(2004)49-50. 


8Zhang Peiqing, Wang Xiangsheng, Guo Hongchen, Reducing Olefins in FCC Gasoline by Isomerization and Aromatization over Modified Nano-ZSM-5,

Chinese Journal of Catalysis, 2003, 24: 159-160 (IF: 2.628)


7H.C. Guo, X.S. Wang and G.R Wang, Enhancing the shape selectivity of nanocrystalline HZSM-5 zeolite via comprehensive modifications,

Stud. Surf. Sci. Catal., 2001, 135, 307. 


6Guo Hongchen, Wang Xiangsheng, Modified Nano-ZSM-5 Zeolite As para-Selective Alkylation Catalyst,

Chinese Journal of Catalysis, 2000, 21: 397-398 (IF: 2.628)


5Hongchen Guo, Toru Shigematsu, Shigeru, Morimura and Kenji Kida,Production of Calcium Hydroxyapatite and Protein Hydrolysate from Fish Scales by Enzymatic Hydrolysis or Acid Extraction, in:Japanese Symposium of Biochamical Engineering Kyushu Branch No. 6, A-34(oral,1999).


4G. Hongchen, W. Xiangsheng, and W. Guiru, The Diffusion Properties,External Acidity and Catalytic Performances of Nano-Crystalline HZSM-5 Zeolite, in: Proceedings of the 12th International Zeolite Conference, Baltimore, I-141(1998).


3W. Guiru, G. Hongchen, L. Yushan, The Preparation of Zeolite 4A Membrane Reactor and Its Use in Dehydration of Diethylene Glycolin: Proceedings of the 12th International Zeolite Conference, Baltimore, III-1795 (1998). 


2Guo Hongchen, Wang Xiangsheng, Zou Bensan, Synthesis of Cerinium-containing High Silica Zeolites: New Catalysts for Hydroxylation of Phenol, Chinese Journal of Catalysis, 18(1997)185-186


1Wang XS, Wang GR, Guo HC, Wang XQ, Ethylation of Ethylbenzene to Produce para-DiethylbenzeneStud. Surf. Sci. Catal., 105(1997)1357-1364.


 

中文论文

 

69、刘家旭,王吉垒,周微,苗翠兰,熊光,辛勤,郭洪臣,一种双光束红外光谱及其在气固相多相催化反应实时原位表征中的应用.  

催化学报, 01期, pp 13-192017/1/15

 

68、赵云,刘家旭,熊光,郭洪臣, 磷改性纳米HZSM-5沸石水热稳定性及其对全馏分FCC汽油烯烃组分催化裂解反应的性能.

催化学报,01pp 138-1452017/1/15

 

67、赵云,贺宁,郭洪臣, 石脑油在芳构化反应中活化途径的热力学分析.

科技通报,32(1)2016

 

66、张婧,王东江,张家良,郭洪臣, 大气压下甲烷火花放电制乙炔和合成气

燃料化学学报 02期,pp 235-2422015/2/15

 

65、张婧(#),李腾,王东江,张家良,郭洪臣, 介质阻挡放电甲醇脱氢偶联一步合成乙二醇反应中氢气的催化作用.

催化学报, 03期, pp 274-2822015/3/20

 

/64、郑步梅(#),万玉凤,杨卫亚,凌凤香,谢红,方向晨,郭洪臣,

无有机模板剂体系水热合成Beta沸石中晶种的导向机理

催化学报, 11期, 2014 ; SCI

  

63赵越(#),王丽,张家良,郭洪臣, 非平衡等离子体放电模式及反应器结构对氨气分解制氢的影响.

物理化学学报, 04期, pp 738-7442014/4/15

 

62、王旭阳(#),宋鹏月,王祥生,郭新闻,郭洪臣,杨晓宇,陈立东,姜春杰

多酸基深度加氢脱硫催化剂的原位表征和反应性能

应用化学, 08期, pp 990-9922014/8/10

 

61、郑步梅, 万玉凤, 谢红, 郭洪臣, 碱源对低模硅比凝胶水热合成Beta沸石的影响,

分子催化, 2013.10月,Vol.27,No.5 429-438


60、赵文平, 刘满丽, 孔德嘉, 刘春燕, 张宝珠, 郭洪臣, 碱液后处理对纳米ZSM-5沸石孔道和酸度的影响,

分子催化, 2013,27,307-315


59、董洁, 王丽, 赵越, 张家良, 郭洪臣, 添加气对非平衡等离子体转化低碳烷烃的影响,

高等学校化学学报, 2013, 341:192-197


58、张宝珠,赵文平,王桂茹,郭洪臣, 甲醇制烃(MTH)反应热力学研究,

分子催化, 2012.266:546-553


57、高天龙; 易颜辉; 张家良; 赵越; 王丽; 郭洪臣, 化工学报, 2012, 63(11),3513-3518


56、艾沙·努拉洪; 刘家旭; 赵文平; 王桂茹; 郭洪臣, 正丁烷和异丁烷在改性纳米HZSM-5上的芳构化反应,

分子催化, 2012,26(3),257-264

 

55、徐瑞芳; 刘家旭; 梁翠翠; 贾文浩; 李福芬; 郭洪臣; 碱金属离子改性对纳米HZSM-5沸石丁烯裂解催化性能的影响,

燃料化学学报,2011, 39(6), 449-454

 

54、梁翠翠; 徐瑞芳; 常旭升; 刘国东; 刘家旭; 郭洪臣,丁烯催化裂解反应中的C—H键型副反应和化学平衡问题,

分子催化,V252011,25(1),69-77


53、刘家旭,梁翠翠,徐瑞芳,刘国东,常旭升,郭洪臣,碳四液化气在离子浸渍改性纳米HZSM-5沸石上的转化反应研究,

分子催化,V24201024(3),208-216


52、孙琳,张艳侠,叶娜,王祥生,郭洪臣,李长明,李吉春,马安, 纳米HZSM-5沸石的骨架热稳定性及其作为催化剂的可再生性,

分子催化, V24 2010No.3,202-207

 

51、赵斌; 梁翠翠; 赵剑利; 易颜辉; 宫为民; 郭洪臣, 板板式介质阻挡放电等离子体直接合成过氧化氢研究.

电工电能新技术, 2009, 28(3), 73-76.


50、高敏; 刘春燕; 王刃; 郭洪臣, 在含乙醇的硅铝凝胶中合成ZSM-5沸石.

化学通报, 2009, 12, 1097-1103.


49、贾文浩,徐瑞芳,李福芬,马安, 陈黎行,郭洪臣, 纳米HZSM 25沸石酸度的调节及对液化气裂解反应的影响,

分子催化, 200923111-16.


48、刘丽芝; 郭洪臣; 硅烷化改性ZSM-5分子筛用于催化脱蜡催化剂。

石化技术与应用,2009.273242-245.

 

47、李进,权文吉,郭维静,王红菊,郭洪臣;酸性蛋白酶水解玉米蛋白粉反应过程的研究,食品科技, Food Science and Technology, 200807


46、郭明星; 尹淑慧; 郭洪臣; 王祥生; 宫为民,等离子体下分子氧和丙烯选择性氧化反应,高电压技术, v 34, n 7, July, 2008, p 1440-1444


45、赵乐平; 方向晨; 胡永康; 尤百玲; 郭洪臣; FCC汽油硫化物在ZSM-5催化剂上的加氢脱硫路径,石油学报(石油加工)v 24, n 2, April, 2008, p 141-145

 

44、张志国, 毕然, 郭洪臣, 陈黎行,以水玻璃和硫酸铝为原料合成T型沸石的研究,

现代化工,27,增刊(2007269-271


43、温广明, 王文寿, 陈黎行,郭洪臣,王祥生,ZnO/θ-Al_2O_3催化剂上全馏分FCC汽油的选择性加氢脱硫,

催化学报,2892007823-828


42、刘继华, 赵乐平,方向晨,胡永康,郭洪臣,硫化物在OTA催化剂上催化转化性能,

当代化工,3642007385-388


41、左广玲, 王文寿,王刃, 郭洪臣,王祥生, 赵乐平,改性纳米HZSM-5催化剂上噻吩转化反应的研究,

分子催化,2142007319-323


40、赵乐平,胡永康,方向晨,郭洪臣, FCC汽油烃及硫化物在OTA催化剂上催化反应的研究,石油炼制与化工,386200737-40


39、孙琳,叶娜, 王祥生,郭洪臣,晶粒度对ZSM-5沸石上C_4液化气低温芳构化反应的影响,化学通报,82007633-636


38、李福芬, 贾文浩,陈黎行,郭洪臣,丁烯在纳米H-ZSM-5催化剂上的催化裂解反应,

催化学报,2862007567-571


37、叶娜, 孙琳,王刃,陈黎行,郭洪臣,王祥生,纳米ZSM-5沸石上丁烯的芳构化反应,

化工学报,5842007913-918


36、权文吉,郭维静,李进, 郭洪臣,剪切乳化预处理对玉米蛋白酶解反应的促进作用,

食品与发酵工业,338200735-38


35、苟建霞,周军成,郭洪臣,苏际,陈黎行,王祥生,宫为民,氢气和氧气介质阻挡放电合成过氧化氢的研究,

现代化工,262006194-197 


34、郭明星,尹淑慧,郭洪臣,王祥生,宫为民冷等离子体条件下分子氧丙烯气相环氧化,现代化工,26卷第6,(2006.6) 


33、尤百玲,赵乐平,庞宏,胡永康,郭洪臣,烃及含硫模型化合物在ZSM-5催化剂上的催化转化性能,

当代化工,35卷第3,(2006.6) 


32、金彦,张述伟,李恒,郭洪臣 ,三乙烯二胺分离过程的模拟,

石油化工高等学校学报,第9卷第2期,(2006.6)


45、张培青,郭洪臣,王祥生,郭新闻,改性纳米ZSM-5催化剂上正辛烷转化反应的研究,

高等学校化学学报,27卷第5(2006.5)


31、周军成,苟建霞,陈黎行,郭洪臣,王祥生,用氢氧的非平衡等离子体直接合成过氧化氢,

化工学报,57卷第4,(2006.4)

 

30、张培青,王祥生,郭洪臣,组合改性对纳米HZSM-5催化剂降低汽油烯烃性能的影响,催化学报,26卷第10,(2005.10)


29、王红菊,郭维静,郭洪臣,班玉凤,陈黎行, 王祥生,一种提高玉米蛋白水解度和降解率的方法

,食品科技,5,(2005)


28、郭明星,郭洪臣,王祥生,周军成,赵剑利,陈黎行,宫为民,丙烯和氧等离子体直接气相合成环氧丙烷,

高等学校化学学报,26卷第3,(2005.3)


27、张培青,徐金光,王祥生,郭洪臣,纳米HZSM-5催化剂催化C_8直链烃转化的性能,

催化学报,26卷第3,(2005.3)


26、张淑梅,翟庆铜,王春梅,郭洪臣,丙烯醚化合成二异丙醚催化剂研究,

燃料化学学报,33卷第1,(2005.2) 

 

25、班玉凤,郭洪臣,朱海峰,H_2O_2对大豆蛋白酶解过程色变的抑制,

中国油脂,第29卷第8期,(2004)


24、胡永康,赵乐平,李扬,方向晨,关明华,郭洪臣,全馏分催化裂化汽油芳构化烷基化降烯烃技术的开发,

炼油技术与工程,34卷第1,(2004.1) 


23、张艳侠,郭洪臣,邹龙江,陈黎行,王祥生,王刃,纳米ZSM-5沸石的骨架热及水热稳定性研究,

石油化工,33(增刊),(2004129-131


22、郭明星,郭洪臣,王祥生,周军成,赵剑利,陈黎行,宫为民,介质阻挡放电法直接气相合成环氧丙烷,

石油化工,33(增刊),(20041576-1578

 

21、郭明星,郭洪臣,王祥生,周军成,赵剑利,宫为民,丙烯、氧等离子体直接合成环氧丙烷,中国化学会第24届学术年会,绿色化学分会口头报告(01-16),2004424日,湖南,长沙。


20、杨付,王祥生,郭洪臣 超细HZSM-5沸石催化烃类芳构化反应的研究,

分子催化,181200430-35


19、胡永康,赵乐平,李扬,方向晨,关明华,郭洪臣,全馏分催化裂化汽油芳构化烷基化降烯烃技术的开发,

炼油技术与工程,34120041-4 


18、胡永康,赵乐平,李扬,周勇,郭洪臣,王祥生,纳米ZSM-5沸石在OTA汽油降烯烃技术中的应用,

中国有色金属学报,1412004317-322 


17、郭明星,郭洪臣,王祥生,周军成,赵剑利,宫为民,脉冲电晕等离子体原位合成过氧化氢,

现代化工,24,增刊(2004161-163

 

16、郭洪臣,王祥生,杨付,张培青,徐舟波,王刃,赵乐平,胡永康,汽油芳构化降烯烃ZSM-5型催化剂的研究,

分子催化,1822004109-114


15、徐舟波,郭洪臣,王祥生,张培青,陈黎行,催化裂化汽油降烯烃技术进展及新技术探讨(综述),

当代化工,3332004141-145


14、张培青,王祥生,郭洪臣,赵乐平,胡永康,水汽处理对纳米HZSM-5沸石催化剂酸性质和降低汽油烯烃性能的影响,

催化学报,24122003900-904


13、郭洪臣,刘娜,周军成,郭明星,王祥生,陈黎行,大晶粒钛硅沸石TS-1晶貌的离子蚀刻改性,

高等学校化学学报[研究快报]24,62003977-979.


12、刘娜,郭洪臣,王祥生,陈黎行,陈永英,钛硅沸石TS-1在丙烯环氧化反应环境中的水热稳定性研究,

催化学报,2462003437-440


11、刘娜,郭洪臣,王祥生,陈黎行,陈永英,钛硅沸石TS-1在环己酮氨氧化反应环境中的水热稳定性研究,

催化学报,2462003441-446


10、赵凌雁,郭洪臣,陈黎行,王祥生,曾高峰,在MFI型高硅沸石上用一乙醇胺选择性合成三乙烯二胺,

现代化工,23,(2003193-197


9、李岩,班玉凤,郭洪臣,王祥生,陈黎行,毛生贵,pH值渐变条件下双酶协同水解猪皮制备胶原蛋白寡肽的研究,

食品科学,247200374-79


8、班玉凤,郭洪臣,李 岩,陈黎行,殷德宏,毛生贵,pH值渐变条件下双酶协同水解大豆蛋白,

大连理工大学学报,441200456-58


7、张培青,王祥生,郭洪臣,朱文良,改性纳米ZSM-5催化剂脱除汽油中烯烃的性能,催化学报,2482003585-589


6、张培青,王祥生,郭洪臣,不同晶粒大小HZSM-5降低汽油中烯烃性能比较,

大连理工大学学报,4352003571-576


5、郭洪臣,刘娜,陈黎行,王祥生,丙烯环氧化合成环氧丙烷新技术的研究进展,

化工进展,22200334-38


4、刘娜,郭洪臣,王祥生,陈黎行,钛硅沸石TS-1的高温焙烧法再生研究,

现代化工,23,4200324-28


3、王昇,张述伟,李燕,郭洪臣,水、丙二醇和丙二醇单甲醚混合物分离工艺,

石油化工,31122002973-976


2、王昇,张述伟,李燕,郭洪臣,丙烯环氧化反应产物分离工艺研究

大连理工大学学报,422002419-423


1、郭洪臣,王祥生,李钢,刘娜,成卫国,陈黎行,用低成本钛硅沸石TS-1开发丙烯环氧化的绿色催化技术,中国石化分子筛协作组/IZA中国国家委员会(筹)2002年联合学术年会大会口头报告,200211月(扬州),绿色化学与分子筛研讨会论文集 p45

 


 


 


 


 


 



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