Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
about
Low Temperature CO oxidation over Iron Oxide Nanoparticles Decorating Internal Structures of a Mesoporous AluminaReversible amorphization and the catalytically active state of crystalline Co3O4 during oxygen evolutionCatalytic consequences of open and closed grafted Al(III)-calix[4]arene complexes for hydride and oxo transfer reactions.Size dependence of structural parameters in fcc and hcp Ru nanoparticles, revealed by Rietveld refinement analysis of high-energy X-ray diffraction data.Bridging the pressure gap in model systems for heterogeneous catalysis with high-pressure scanning tunneling microscopy.Real-time observation of cation exchange kinetics and dynamics at the muscovite-water interface.Computational Insights into Materials and Interfaces for Capacitive Energy StorageReal-Time Gas-Phase Imaging over a Pd(110) Catalyst during CO Oxidation by Means of Planar Laser-Induced Fluorescence.Single-molecule fluorescence spectroscopy in (bio)catalysisAn In situ TEM study of the surface oxidation of palladium nanocrystals assisted by electron irradiation.Size effects in atomic-level epitaxial redistribution process of RuO₂ over TiO₂.Building better lithium-sulfur batteries: from LiNO3 to solid oxide catalystThe Nanostructuring of Atomically Flat Ru(0001) upon Oxidation and ReductionCO oxidation as a prototypical reaction for heterogeneous processes.Two-dimensional oxides: multifunctional materials for advanced technologies.In Situ Optical Reflectance Difference Observations of CO Oxidation over Pd(100).Reaction mechanism of CO oxidation on Cu(2)O(111): A density functional study.Methanol oxidation on stoichiometric and oxygen-rich RuO2(110).Structural motifs of water on metal oxide surfaces.Operando chemistry of catalyst surfaces during catalysis.Effects of coverage on the structures, energetics, and electronics of oxygen adsorption on RuO2(110).Visualizing atomic-scale redox dynamics in vanadium oxide-based catalysts.Stable reconstruction of the (110) surface and its role in pseudocapacitance of rutile-like RuO2.A More Accurate Kinetic Monte Carlo Approach to a Monodimensional Surface Reaction: The Interaction of Oxygen with the RuO2(110) Surface.Communication: Structure, formation, and equilibration of ensembles of Ag-S complexes on an Ag surface.In situ study of CO oxidation on HOPG-supported Pt nanoparticles.Does phenomenological kinetics provide an adequate description of heterogeneous catalytic reactions?A new scanning tunneling microscope reactor used for high-pressure and high-temperature catalysis studies.When ruthenia met titania: achieving extraordinary catalytic activity at low temperature by nanostructuring of oxides.Importance of nanostructured vanadia for selective oxidation of propane to acrylic acid.Perovskites in catalysis and electrocatalysis.Ru atom-modified covalent triazine framework as a robust electrocatalyst for selective alcohol oxidation in aqueous electrolytes.In situ studies of NO reduction by H2 over Pt using surface X-ray diffraction and transmission electron microscopy.An insight into methanol oxidation mechanisms on RuO2(100) under an aqueous environment by DFT calculations.Catalytic reactions on neutral Rh oxide clusters more efficient than on neutral Rh clusters.Contrast reversal and shape changes of atomic adsorbates measured with scanning tunneling microscopy.Structure of the SnO_{2}(110)-(4×1) Surface.First principles study of CO oxidation on TiO2(110): the role of surface oxygen vacancies.Role of subsurface oxygen in oxide formation at transition metal surfaces.A Route for Phase Control in Metal Nanoparticles: A Potential Strategy to Create Advanced Materials.
P2860
Q28468326-27A604C2-9A08-494F-93DD-5CC9648E74D9Q28607798-FAFA4080-774B-41B5-B09F-206863A73F52Q30417698-C77D79A1-E07C-4692-8382-9E4F677C9B1BQ31120575-C2BB70CA-2213-4EB6-AC5A-54758C7426E0Q33290015-37B24162-F89F-4BF4-869F-6B98BE800C1EQ33804719-DEFA8B12-F526-4EFF-9CF4-599189D38A6FQ33914565-D1E15E8F-846A-456C-AB7C-15F0D6500399Q35376283-01045E92-E722-49DB-BB41-E7A3530A0B97Q35921569-A18C8C86-356A-4C7B-9036-5118BF9F62B5Q36288231-7B374FB2-D992-412A-8747-3D3C34A4C4F5Q36386225-D7F48037-9B5E-4DDA-9605-C48D7AD38C49Q37257582-C06DB7C5-A226-44BB-9331-6AB00D064FFBQ37459186-0CA06620-A649-411E-AE77-E91D88D8EA38Q37940925-6EE382F3-11CA-4D7F-A1FA-281D2F26670BQ38030890-5D829559-DB70-4CCA-A192-556C5BCFCC13Q38430630-CABF0C99-A279-4C27-AC71-BD49916E89D5Q38466021-5CEACE74-C644-4C24-8078-287A45D7DA58Q38681727-08DC08EF-A703-484A-AB7C-A1C8DC231EACQ39127632-6D5AB307-5029-42DD-B828-B4B4EBA8DD5FQ39208729-F6738593-396C-42C4-BF71-E4EEF9B16175Q39331466-13D8480A-6E97-4F67-8CD4-A00A9EAADF2CQ41464115-3B45A6F0-058D-45DD-98A5-B0524D0492F3Q41605819-6DE27A34-A62C-4E6A-AB2C-751E492D910EQ42741382-672FD0D5-2D4B-4AF7-AB14-BAEDA4EA0785Q44466346-2BFAB222-9F83-4158-8329-6E45D7F85BD3Q44735857-24D56733-25F8-4693-9289-CCF178F630E6Q45997072-5210699B-26FA-4C4C-861C-7F7CC7529EE6Q46220615-79A50512-CD0F-486B-A60C-F88A918230ECQ46665998-A54BC60D-8C7C-4B6A-BD42-335C2AAFAACDQ46956966-00B640F0-9DB1-4FA1-8F49-54DE297EEE83Q47363884-8A730D4A-F87A-4FAD-9D7B-1BC243512EEDQ47700350-B53BCD51-57CC-44C4-9B35-01D305910EAEQ48045279-360F45EF-25F0-4E50-8CE2-E11063D94CB3Q48045830-3505B7E5-D495-44FD-98D2-E403953A0C5EQ48184943-E1FF4A0C-16D9-4F57-AF80-7C717F0E1B1CQ49256528-FA670317-A674-4C29-BB87-A81FB20F0B44Q49828274-C42AD48C-B7AD-4018-876E-9F1AACC9666CQ50100307-E3356E33-620C-43B2-B9E5-1EFD73329F98Q50281602-C7AD6065-49F1-4891-980D-F7897FB2995CQ50915829-9A17C2F6-1D68-49A0-95BE-E03CB35B2D29
P2860
Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
@en
type
label
Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
@en
prefLabel
Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
@en
P2093
P1433
P1476
Atomic-scale structure and catalytic reactivity of the RuO(2)(110) surface
@en
P2093
Morgante A
Seitsonen AP
P304
P356
10.1126/SCIENCE.287.5457.1474
P407
P577
2000-02-01T00:00:00Z