Amanote Research
Register
Sign In
Investigation of the Reducibility of Supported Oxomolybdate Species for Mapping of Active Centers of Partial Oxidation Reaction: In Situ Mo KEdge XAS and DFT Study
doi 10.1021/acs.jpcc.9b02732.s001
Full Text
Open PDF
Abstract
Available in
full text
Date
Unknown
Authors
Unknown
Publisher
American Chemical Society (ACS)
Related search
In Situ XAS Investigations of Chemical Oscillations in the Oxidation of Co on Supported Pd Catalysts
Le Journal de Physique IV
Time Resolved in Situ DXAFS Revealing Highly Active Species of PdO Nanoparticle Catalyst for CH4 Oxidation
ChemCatChem
Organic Chemistry
Inorganic Chemistry
Catalysis
Theoretical Chemistry
Physical
Noble Metals Supported Hexagonal Boron Nitride for Oxygen Reduction Reaction: A DFT Study
Nanoscale Advances
Materials Science
Molecular Physics,
Engineering
Atomic
Bioengineering
Chemistry
Optics
In Situ Synchrotron XAS Study of the Decomposition Kinetics of ZDDP Triboreactive Interfaces
RSC Advances
Chemistry
Chemical Engineering
Correction: Noble Metal Supported Hexagonal Boron Nitride for the Oxygen Reduction Reaction: A DFT Study
Nanoscale Advances
Materials Science
Molecular Physics,
Engineering
Atomic
Bioengineering
Chemistry
Optics
Active Sites Speciation of Supported CoMoS Phase Probed by NO Molecule: A Combined IR and DFT Study
Journal of Catalysis
Theoretical Chemistry
Catalysis
Physical
Partial Oxidation of Ethanol on Supported Rh Catalysts: Effect of the Oxide Support
Journal of Molecular Catalysis A: Chemical
In Operando XAS Investigation of Reduction and Oxidation Processes in Cobalt and Iron Mixed Spinels During the Chemical Loop Reforming of Ethanol
Journal of Materials Chemistry A
Materials Science
Chemistry
the Environment
Sustainability
Renewable Energy
In Situ Engineering of Double-Phase Interface in Mo/Mo2C Heteronanosheets for Boosted Hydrogen Evolution Reaction