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Line narrowing in 1H MAS spectrum of mesoporous silica by removing adsorbed H2O using N2.Effect of barium loading on the desulfation of Pt-BaO/Al2O3 studied by H2 TPRX, TEM, sulfur K-edge XANES, and in situ TR-XRD.Micro and mesoporous metal-organic frameworks for catalysis applications.A common intermediate for N2 formation in enzymes and zeolites: side-on Cu-nitrosyl complexes.Characterization of Cu-SSZ-13 NH3 SCR catalysts: an in situ FTIR study.Characterization of dispersed heteropoly Acid on mesoporous zeolite using solid-state 31P NMR spin-lattice relaxation.An isotropic chemical shift-chemical shift anisotropic correlation experiment using discrete magic angle turning.Stable platinum nanoparticles on specific MgAl2O4 spinel facets at high temperatures in oxidizing atmospheres.Characterization of surface and bulk nitrates of gamma-Al2O3-supported alkaline earth oxides using density functional theory.Direct observation of the active center for methane dehydroaromatization using an ultrahigh field 95Mo NMR spectroscopy.Changing morphology of BaO/Al2O3 during NO2 uptake and release.Interaction of water with ordered theta-Al(2)O(3) ultrathin films grown on NiAl(100).A large sample volume magic angle spinning nuclear magnetic resonance probe for in situ investigations with constant flow of reactantsCoordinatively unsaturated Al3+ centers as binding sites for active catalyst phases of platinum on gamma-Al2O3Two different cationic positions in Cu-SSZ-13?Well-studied Cu–BTC still serves surprises: evidence for facile Cu2+/Cu+ interchangeDirect Conversion of Bio-ethanol to Isobutene on Nanosized ZnxZryOzMixed Oxides with Balanced Acid–Base SitesEffect of Produced HCl during the Catalysis on Micro- and Mesoporous MOFsQ58755144Role of Pentacoordinated Al3+ Ions in the High Temperature Phase Transformation of γ-Al2O3Water-induced morphology changes in BaO/γ-Al2O3NOxstorage materialsBa Deposition and Oxidation on θ-Al2O3/NiAl(100) Ultrathin Films. Part II: O2(g) Assisted Ba OxidationLow Temperature H2O and NO2Coadsorption on θ-Al2O3/NiAl(100) Ultrathin FilmsMorphological Evolution of Ba(NO3)2Supported on α-Al2O3(0001): An In Situ TEM StudyNO2Adsorption on BaO/Al2O3: The Nature of Nitrate SpeciesNO2Adsorption on Ultrathin θ-Al2O3Films: Formation of Nitrite and Nitrate SpeciesCHEMISTRY: Oxygen Vacancies and Catalysis on Ceria SurfacesThe Catalytic Chemistry of HCN + NO2over Na− and Ba−Y,FAU: An in Situ FTIR and TPD/TPR StudyThermally grownSi3N4thin films on Si(100): Surface and interfacial compositionKinetics of hydrogen absorption by Pd(110)Observation of a true interface state in strained-layer Cu adsorption on Ru(0001)Unraveling the mysterious failure of Cu/SAPO-34 selective catalytic reduction catalysts
P50
Q30981726-22F187E8-792D-4156-81EF-E8C3C0526217Q33244555-7858038E-2756-4666-9AAA-38A06435B7DFQ43070613-23A2CDF9-8F08-4345-B2BB-0DA8751C2617Q43781096-B9C8CAED-D28C-4F78-B1E6-F32A78EC0127Q43879851-DC76F202-8E80-40DE-8DDE-4EC95FCE3AF0Q45929504-F5C80DDC-5B63-485C-89C9-31BD8EBD4D92Q46107585-4FD0FF85-96D3-4BF2-AC00-51D71DADA8C6Q46854112-07163A1A-CF24-420A-B476-19E2077338D1Q50609367-7EC40B4E-9717-45E0-AC69-B421DDEAFF43Q50644368-F84CFADC-F7D3-4DFA-8D0A-1A66089616AFQ51160829-826961C1-1A68-4F53-A35C-A9268F9EBAB9Q51161108-284FAA4A-7796-447A-9EC6-A7E7522376C6Q57096713-2263597C-441E-4D84-B443-4ADB25FE5819Q57097700-FC0AA6FA-E260-4D5D-80AE-406B10EF1952Q58754811-590D744C-BD3B-4C49-8183-E96D9343ABEFQ58754822-48121A10-76A1-4AE4-848F-72DC964CF2F7Q58754859-0BF78B15-450C-440C-B4CA-721F9229507CQ58754970-44617F63-BEC2-44D5-8F50-3DAED02145E3Q58755144-03C8823A-0029-41CE-A962-8BEF2341E96EQ58755225-D422B420-CD93-4677-862B-EB8D1F0568AEQ58755363-B758DC70-3848-4414-8F20-B34AC94AF4D2Q58755405-9F7724C9-55B6-4539-A09F-0EA7F02547B2Q58755479-5FA2FB50-9258-44FF-8FAF-FBFA786D59D9Q58755501-462EFABB-815F-4D1D-8641-3C15593192DDQ58755668-04EDD94E-E81D-404A-83A8-911C8C6D78BFQ58755677-DFFFF968-9894-4253-BDE9-9C9D8BAB9832Q58755710-FC01C5A0-EFF6-4A91-9A87-9CFA9109D4F7Q58755753-10C53793-C53E-4176-A16B-C6E138BC5CD2Q58756136-07B544B3-BD61-4809-8F0D-8D679416B38DQ58756263-23574F71-2E11-4B8C-BBBE-0A359318088BQ58756282-E92C9BB1-2B0E-4A06-B326-1228DA5E9F55Q64117017-AE41D1A8-90E0-4EBD-9706-6AC5E3311AE4
P50
description
researcher, ORCID id # 0000-0001-6754-9928
@en
wetenschapper
@nl
name
Charles H. F. Peden
@ast
Charles H. F. Peden
@en
Charles H. F. Peden
@es
Charles H. F. Peden
@nl
type
label
Charles H. F. Peden
@ast
Charles H. F. Peden
@en
Charles H. F. Peden
@es
Charles H. F. Peden
@nl
altLabel
Charles H.F. Peden Charles Peden, C.H.F. Peden
@en
prefLabel
Charles H. F. Peden
@ast
Charles H. F. Peden
@en
Charles H. F. Peden
@es
Charles H. F. Peden
@nl
P106
P1153
7006456805
P31
P496
0000-0001-6754-9928