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[1]Liu, Guodong.Silicalite-1 zeolite acidification by zinc modification and its catalytic properties for isobut...[J],RSC Advances,2022,8(33):18663-18671
[2]郭玲玲.Small-sized cuprous oxide species on silica boost acrolein formation via selective oxidation of p...[J],CHINESE JOURNAL OF CATALYSIS,2022,42(2):320-333
[3]Wang, Qixiang.Sn-doped Pt catalyst supported on hierarchical porous ZSM-5 for the liquid-phase hydrogenation ...[J],Catalysis Science Technology,2022,9(12):3226-3237
[4]熊光.Synthesis and crystallization mechanism of nano-sized zeolite beta aggregates via aerosol-assis...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,249:97-104
[5]Vile, Gianvito.Surface engineering of a Cu-based heterogeneous catalyst for efficient azide-alkyne click cycload...[J],REACTION CHEMISTRY & ENGINEERING,2022,6(10):1878-1883
[6]Liu, Guodong.Silicalite-1 zeolite acidification by zinc modification and its catalytic properties for isobut...[J],RSC Advances,2022,8(33):18663-18671
[7]郭玲玲.Small-sized cuprous oxide species on silica boost acrolein formation via selective oxidation of p...[J],CHINESE JOURNAL OF CATALYSIS,2022,42(2):320-333
[8]Wang, Qixiang.Sn-doped Pt catalyst supported on hierarchical porous ZSM-5 for the liquid-phase hydrogenation ...[J],Catalysis Science Technology,2022,9(12):3226-3237
[9]熊光.Synthesis and crystallization mechanism of nano-sized zeolite beta aggregates via aerosol-assis...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,249:97-104
[10]Vile, Gianvito.Surface engineering of a Cu-based heterogeneous catalyst for efficient azide-alkyne click cycload...[J],REACTION CHEMISTRY & ENGINEERING,2022,6(10):1878-1883
[11]刘家旭.Preparation of nano-Au/HZSM-5 catalyst and it’s performance in methane activation[A],12th Japan China Symposium on Coal and C1 Chemistry,2022
[12]熊光.Rapid hydrothermal synthesis of hierarchical ZSM-5/beta composite zeolites[J],RSC ADVANCES,2022,11(35):21235-21247
[13]Liu, Guodong.Pt supported on Zn modified silicalite-1 zeolite as a catalyst for n-hexane aromatization[J],Journal of Energy Chemistry,2022,34:96-103
[14]遇治权.Reprint of: A bifunctional Ni3P/γ-Al2O3 catalyst prepared by electroless plating for the hydrode...[J],Journal of Catalysis,2022
[15]Nie, Binjian.Review on phase change materials for cold thermal energy storage applications[J],RENEWABLE SUSTAINABLE ENERGY REVIEWS,2022,134
[16]Nie, Binjian.Review on phase change materials for cold thermal energy storage applications (vol 134, 110340, 2...[J],RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2022,139
[17]刘家旭.Responses to the comments of Prof. Frederic Meunier[J],催化学报,2022,40(1):1-3
[18]Lin, Long.Operando Dual Beam FTIR Study of Hydroxyl Groups and Zn Species over Defective HZSM-5 Zeolite S...[J],Catalysts,2022,9(1)
[19]Niu, Kangning.One step synthesis of Fe-SSZ-13 zeolite by hydrothermal method[J],JOURNAL OF SOLID STATE CHEMISTRY,2022,287
[20]魏曰.Organic groups-regulated high-efficiency catalysis of hybrid Ti-Containing mesoporous silicates f...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,310:110668-
[21]Liu, Dan.Organic-inorganic hybrid mesoporous titanium silica material as bi-functional heterogeneous cat...[J],FUEL,2022,244:196-206
[22]刘家旭.Comment on the correction of gas-phase signals during IR operando analyses Response[J],催化学报,2022,40(1):1-3
[23]刘家旭.Construction of an operando dual-beam fourier transform infrared spectrometer and its application...[A],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2022,256
[24]刘家旭.Construction of an operando dual-beam fourier transform infrared spectrometer and its applicati...[J],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2022,256
[25]Kong, Dejia,沈莉.CVD-assisted fabrication of hierarchical microparticulate Li2TiSiO5-carbon nanospheres for ultr...[J],Nanoscale,2022,12(26):13918-13925
[26]Zhao, Wenning.Metal-Support Interaction in Pt/TiO2: Formation of Surface Pt-Ti Alloy[J],JOURNAL OF PHYSICAL CHEMISTRY C,2022,125(19):10386-10396
[27]Liu, Dan.Mesoporous Titanium-Silicalite Zeolite Containing Organic Templates as a Bifunctional Catalyst ...[J],ACS Applied Materials Interfaces,2022,10(26):22119-22129
[28]Su, Ji.Catalysis Process Development for Hydrogen Storage/Generation with LOHCs[J],TOPICS IN CATALYSIS,2022,64(7-8):469-469
[29]遇治权.A bifunctional Ni3P/gamma-Al2O3 catalyst prepared by electroless plating for the hydrodeoxygenati...[J],JOURNAL OF CATALYSIS,2022,396:324-332
[30]Fu, Zihao.Adsorption of Nitrobenzene on the Surface of Ice: A Grand Canonical Monte Carlo Simulation Stud...[J],Journal of Physical Chemistry C,2022,121(29):15746-15755
[31]Zhao, Yun.A Comparison on the Hydrothermal Stability of Nano-sized H-ZSM-5 Zeolite Modified by Ammonium D...[J],CATALYSIS LETTERS,2022,149(8):2169-2179
[32]熊光.Aerosol-assisted synthesis of nano-sized ZSM-5 aggregates[J],RSC Advances,2022,6(103):101365-101371
[33]Meng, Qingrun.Aerosol-seed-assisted hydrothermal synthesis of Sn-Beta zeolite and its catalytic performance i...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,266:242-251
[34]yuewei.An octane mediated strategy towards Ti-containing HMS-type mesoporous materials incorporated wi...[J],FUEL,2022,280
[35]刘家旭.Aromatization of n-butane and i-butane over modified nano-HZSM-5 catalyst[J],催化学报,2022,34(1):1067-1071
[36]Qian, Ji.A Preliminary Study on the Role of the Internal and External Surfaces of Nano-ZSM-5 Zeolite in ...[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2022,58(21):9006-9016
[37]Qian, Ji.Hydrothermal synthesis of MCM-49 zeolite with cyclohexylamine template[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,276:192-200
[38]刘家旭.Ligand-Metal Charge Transfer Induced via Adjustment of Textural Properties Controls the Performan...[J],ACS APPLIED MATERIALS INTERFACES,2022,13(22):25858-25867
[39]刘家旭.Isobutane aromatization over a complete Lewis acid Zn/HZSM-5 zeolite catalyst: performance and ...[J],Catalysis Science Technology,2022,8(16):4018-4029
[40]刘家旭.The crucial role of reaction pressure in the reaction paths for i-butane conversion over Zn/HZS...[J],CHEMICAL ENGINEERING JOURNAL,2022,218:1-8
[41]刘家旭.The Crucial Role of Skeleton Structure and Carbon Number on Short-Chain Alkane Activation over ...[J],CATALYSIS LETTERS,2022,148(7):2069-2081
[42]熊光.The synthesis of hierarchical high-silica beta zeolites in NaF media[J],RSC Advances,2022,9(7):3653-3660
[43]Meng, Qingrun.The synthesis of hierarchical Sn-Beta zeolite via aerosol-assisted hydrothermal method combined...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,287:85-92
[44]周玮.Transformation of Propane over ZnSnPt Modified Defective HZSM-5 Zeolites: The Crucial Role of H...[J],Catalysts,2022,9(7)
[45]刘家旭.Transient Bronsted Acid Sites in Propene Aromatization over Zn-Modified HZSM-5 Detected by Oper...[J],Journal of Physical Chemistry C,2022,123(12):7283-7289
[46]Li, Zaichao.Towards the preparation of binderless ZSM-5 zeolite catalysts: the crucial role of silanol nest...[J],Catalysis Science Technology,2022,10(23):7829-7841
[47]Lin, Long.Effect of Zeolitic Hydroxyl Nests on the Acidity and Propane Aromatization Performance of Zinc ...[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2022,59(37):16146-16160
[48]Ye, Run-Ping.Engineering Ni/SiO2 catalysts for enhanced CO2 methanation[J],FUEL,2022,285
[49]zhouwei.Enhancing Propane Aromatization Performance of Zn/H-ZSM-5 Zeolite Catalyst with Pt Promotion: E...[J],CATALYSIS LETTERS,2022,149(8):2064-2077
[50]孟庆润.Fast hydrothermal synthesis of hierarchical Sn-Beta zeolite with high SnFast hydrothermal synthes...[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,294:109915-109924
[51]Miao, Cuilan.Gas-Phase Epoxidation of Propylene with Hydrogen Peroxide Vapor: Effect of Modification with Na...[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2022,58(27):11739-11749
[52]刘家旭.Highly-Dispersed Zinc Species on Zeolites for the Continuous and Selective Dehydrogenation of Eth...[J],ACS CATALYSIS,2022,11(5):2819-2830
[53]钱吉.Hydrothermal synthesis of MCM-49 zeolite with cyclohexylamine template[J],MICROPOROUS AND MESOPOROUS MATERIALS,2022,276:192-200
[54]艾沙.正丁烷和异丁烷在改性纳米HZSM-5上的芳构化反应[J],分子催化,2022,3:257-264
[55]艾沙.正丁烷在Au,Zn组合改性纳米HZSM-5上的催化转化[J],催化学报,2022,34(6):1262-1266
[56]刘家旭.沸石分子筛固体酸催化脱水清洁合成蒽醌及其衍生物[A],第19届全国分子筛学术大会,2022,1-1
[57]艾沙.焙烧处理对制备高分散纳米Au/HZSM-5沸石催化剂的影响[A],第17次全国分子筛学术大会,2022,347-348
[58]艾沙·努拉洪.焙烧处理对制备高分散纳米Au/HZSM-5沸石催化剂的影响[A],第十七届全国分子筛学术大会,2022,2
[59]李静静.改性纳米多孔钴低温催化 CO2加氢制甲醇[J],精细化 工,2022,37(12):2510-2517
[60]刘家旭.异丁烷在Mo、Zn改性纳米HZSM-5上的催化转化研究[A],第十六届全国催化学术会议,2022,1-2
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