about
Efficient solvent-free hydrogenation of ketones over flame-prepared bimetallic Pt-Pd/ZrO(2) catalysts.Brønsted acid sites based on penta-coordinated aluminum speciesYolk-Shell-Structured Aluminum Phenylphosphonate Microspheres with Anionic Core and Cationic ShellSolid-state nuclear magnetic resonance investigations of the nature, property, and activity of acid sites on solid catalysts.Insight into the mechanisms of the ethylbenzene disproportionation: transition state shape selectivity on zeolites.Formation and decomposition of surface ethoxy species on acidic zeolite Y.Regioselective H/D exchange at the side-chain of ethylbenzene on dealuminated zeolite H-Y studied by in situ MAS NMR-UV/Vis spectroscopy.Sensitization of Pt/TiO2 Using Plasmonic Au Nanoparticles for Hydrogen Evolution under Visible-Light Irradiation.Bimetallic Ag-Cu supported on graphitic carbon nitride nanotubes for improved visible-light photocatalytic hydrogen production.Morphological evolution and electronic alteration of ZnO nanomaterials induced by Ni/Fe co-doping.Tuning Phase Composition of TiO2 by Sn(4+) Doping for Efficient Photocatalytic Hydrogen Generation.Enhancing photocatalytic hydrogen evolution by intramolecular energy transfer in naphthalimide conjugated porphyrinsPromoter Effects on Nickel-Supported Magnesium Oxide Catalysts for the Carbon Dioxide Reforming of MethaneConfined Au-Pd Ensembles in Mesoporous TiO2Spheres for the Photocatalytic Oxidation of AcetaldehydeSolid-state NMR study of photocatalytic oxidation of acetaldehyde over the flame-made F-TiO2 catalystExploring Cu oxidation state on TiO 2 and its transformation during photocatalytic hydrogen evolutionSurfactant controlled magnesium oxide synthesis for base catalysisAnalysis of the Promoted Activity and Molecular Mechanism of Hydrogen Production over Fine Au–Pt Alloyed TiO2 PhotocatalystsComparative studies on the catalytic activity and structure of a Cu-MOF and its precursor for alcoholysis of cyclohexene oxideProduction of formic acid from CO2 reduction by means of potassium borohydride at ambient conditionsCO2 reforming of methane over MCM-41-supported nickel catalysts: altering support acidity by one-pot synthesis at room temperatureCooperativity of Brønsted and Lewis Acid Sites on Zeolite for Glycerol DehydrationCuO x dispersion and reducibility on TiO 2 and its impact on photocatalytic hydrogen evolutionExploring the Origin of Enhanced Activity and Reaction Pathway for Photocatalytic H2 Production on Au/B-TiO2 CatalystsImpact of Cu oxidation state on photocatalytic H2 production by Cu/TiO 2Efficient Acid-Catalyzed Conversion of Phenylglyoxal to Mandelates on Flame-Derived Silica/AluminaOne-Step Room-Temperature Synthesis of [Al]MCM-41 Materials for the Catalytic Conversion of Phenylglyoxal to EthylmandelateSelective synthesis of TiO2-based nanoparticles with highly active surface sites for gas-phase photocatalytic oxidationExploring the relationship between surface structure and photocatalytic activity of flame-made TiO2-based catalystsEffect of reactant density inside supercages of zeolite La,Na-Y on the mechanism of the ethylbenzene conversionOxidative coupling of methane over Ca- and alkali metal-doped ThO2SrO·Al2O3 mixed oxides: A promising class of catalysts for oxidative coupling of methaneTuning the support acidity of flame-made Pd/SiO2–Al2O3 catalysts for chemoselective hydrogenationEffect of Dehydration on the Local Structure of Framework Aluminum Atoms in Mixed Linker MIL-53(Al) Materials Studied by Solid-State NMR SpectroscopyIncreasing the Brønsted Acidity of Flame-Derived Silica/Alumina up to Zeolitic StrengthStructure of flame-made vanadia/silica and catalytic behavior in the oxidative dehydrogenation of propaneAdsorption−Desorption Induced Structural Changes of Cu-MOF Evidenced by Solid State NMR and EPR SpectroscopyEffect of pore size and acidity on the coke formation during ethylbenzene conversion on zeolite catalystsThermal Behaviors and Regeneration of Activated Carbon Saturated with Toluene Induced by Microwave IrradiationCharacterization and Acidic Properties of Aluminum-Exchanged Zeolites X and Y
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Q28674311-2E05CCC0-31A8-4B6B-BE0A-C94E7B1FBEE6Q28816981-882E210D-E5D5-4A41-8D2B-0389050F8459Q28821712-C67026DD-C84C-4965-9B4D-A466E0C5A622Q37877026-4630A256-68C0-4A2F-96ED-96FE1B0DD079Q46401743-E91D2B9D-4BA3-4908-8455-5918142602E1Q46585595-E5CFBBA3-3896-4D2F-ABFC-92EAA2B6A2F8Q46645099-30AFEF8C-9D1B-4953-979D-E0D54BAAB6E5Q47768631-BFB37581-4C87-4AC4-90E7-5216DC64C5C0Q50025347-06EAEE9B-12C9-4FDB-A6CF-C45276536192Q50470811-FC16BB51-52D8-4EEC-A4A8-85677E794D2CQ51695293-84F98EE3-412B-4261-93EB-0CD4AF8445A9Q57280102-7B9FFC3D-4CE5-478B-8CA3-FF3873667679Q57975381-4695B80A-EABF-483B-B049-EB9BED779009Q59288816-FFF49659-80EC-4C54-8A3C-5979CF07FE96Q59895001-2AF6CA44-8F7E-4F09-A4A6-E97323537DADQ59895005-83EC38C9-2781-470E-A33E-ED87726396DFQ59895007-738AEBEF-44E6-4F4C-A56E-731A0E77056CQ59895009-326BFFFC-D421-4931-A35A-2AD29DDDB275Q59895011-97FC0331-8A0B-49B9-B2FE-1DA4126047C1Q59895015-7278F369-6EC9-4635-9FCB-7407C5A15BCEQ59895018-DD57689A-3ABF-44EB-ADC0-68B7873C8939Q59895019-3292AE45-712E-4400-86E8-22F8AAB820E2Q59895023-70ED4D0A-392F-4BCB-AEB2-3CE15B2664CFQ59895028-A3415E00-F620-492F-B8CE-9A8054614570Q59895030-4F1E2880-4352-4B29-9395-CC176FA590A7Q59895034-F18E029F-C027-4854-8E8A-391937EAEDB9Q59895038-B309ADD3-DD1B-4CB0-9C08-39970B3BCDB7Q59895042-2E5D0CB8-D87D-454F-ABB8-E01B0B4C9956Q59895048-97808DBA-9D08-4958-B161-33A84A4BCC10Q59895052-ACFDE9AC-D341-446A-B3FA-6182B0A6B944Q59895058-2ACDED2B-0F93-4C10-B972-12F0BDCDE749Q59895065-FB1B553D-A3CF-4EF2-B734-8D8CC73DF2A2Q59895071-E0D41910-0D6A-4FB7-8B87-D6700AA702D2Q59895075-7E21E096-19CF-4817-B0B8-1AEF38819D97Q59895080-9BA01903-BA1B-4AD1-A8FE-CF25B5007E98Q59895085-58B8AF71-6563-43E5-B493-4EC915D1C7F4Q59895090-3AD93B97-F2B8-4756-AC1D-C1F5C103732DQ59895094-B16ED187-19D5-4A8C-88C0-3C2800C53D47Q59895100-72E04E2B-F35E-4A11-B5ED-492B7B78DAB7Q59895103-9A1792BA-DB12-422E-B5EA-009E52634BF5
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Yijiao Jiang
@ast
Yijiao Jiang
@en
Yijiao Jiang
@es
Yijiao Jiang
@nl
Yijiao Jiang
@sl
type
label
Yijiao Jiang
@ast
Yijiao Jiang
@en
Yijiao Jiang
@es
Yijiao Jiang
@nl
Yijiao Jiang
@sl
prefLabel
Yijiao Jiang
@ast
Yijiao Jiang
@en
Yijiao Jiang
@es
Yijiao Jiang
@nl
Yijiao Jiang
@sl
P214
P106
P1153
8651767800
P214
P31
P496
0000-0002-6191-9825
P7859
viaf-23337479