Articles with public access mandates - Israel E. WachsLearn more
Not available anywhere: 18
Iron-based catalysts for the high-temperature water–gas shift (HT-WGS) reaction: a review
M Zhu, IE Wachs
ACS catalysis 6 (2), 722-732, 2016
Mandates: US National Science Foundation
Induced activation of the commercial Cu/ZnO/Al2O3 catalyst for the steam reforming of methanol
D Li, F Xu, X Tang, S Dai, T Pu, X Liu, P Tian, F Xuan, Z Xu, IE Wachs, ...
Nature Catalysis 5 (2), 99-108, 2022
Mandates: US Department of Energy, National Natural Science Foundation of China
Promotion mechanisms of iron oxide-based high temperature water–gas shift catalysts by chromium and copper
M Zhu, TCR Rocha, T Lunkenbein, A Knop-Gericke, R Schlögl, ...
ACS catalysis 6 (7), 4455-4464, 2016
Mandates: US National Science Foundation
Structure–activity relationships of copper-and potassium-modified iron oxide catalysts during reverse water–gas shift reaction
M Gu, S Dai, R Qiu, ME Ford, C Cao, IE Wachs, M Zhu
Acs Catalysis 11 (20), 12609-12619, 2021
Mandates: US Department of Energy, National Natural Science Foundation of China
Molecular Structure–Reactivity Relationships for Olefin Metathesis by Al2O3-Supported Surface MoOx Sites
A Chakrabarti, IE Wachs
ACS Catalysis 8 (2), 949-959, 2018
Mandates: US Department of Energy
Operando Molecular Spectroscopy During Ethylene Polymerization by Supported CrO x /SiO2 Catalysts: Active Sites, Reaction Intermediates …
A Chakrabarti, M Gierada, J Handzlik, IE Wachs
Topics in Catalysis 59, 725-739, 2016
Mandates: US Department of Energy
Nature of Reactive Oxygen Intermediates on Copper-Promoted Iron–Chromium Oxide Catalysts during CO2 Activation
M Zhu, P Tian, ME Ford, J Chen, J Xu, YF Han, IE Wachs
ACS Catalysis 10 (14), 7857-7863, 2020
Mandates: US Department of Energy
Resolving the Reaction Mechanism for H2 Formation from High-Temperature Water–Gas Shift by Chromium–Iron Oxide Catalysts
M Zhu, IE Wachs
ACS Catalysis 6 (5), 2827-2830, 2016
Mandates: US National Science Foundation
Catalyst Activation and Kinetics for Propylene Metathesis by Supported WOx/SiO2 Catalysts
S Lwin, IE Wachs
ACS Catalysis 7 (1), 573-580, 2017
Mandates: US National Science Foundation
Determining number of active sites and TOF for the high-temperature water gas shift reaction by iron oxide-based catalysts
M Zhu, IE Wachs
ACS Catalysis 6 (3), 1764-1767, 2016
Mandates: US National Science Foundation
Surface Structure and Photocatalytic Properties of Bi2WO6 Nanoplatelets Modified by Molybdena Islands from Chemical Vapor Deposition
A Dittmer, J Menze, B Mei, J Strunk, HS Luftman, R Gutkowski, IE Wachs, ...
The Journal of Physical Chemistry C 120 (32), 18191-18200, 2016
Mandates: German Research Foundation
Initial Steps in the Selective Catalytic Reduction of NO with NH3 by TiO2-Supported Vanadium Oxides
MM Mason, ZR Lee, M Vasiliu, IE Wachs, DA Dixon
ACS Catalysis 10 (23), 13918-13931, 2020
Mandates: US Department of Energy
Reaction Mechanism and Kinetics of Olefin Metathesis by Supported ReOx/Al2O3 Catalysts
S Lwin, IE Wachs
ACS Catalysis 6 (1), 272-278, 2016
Mandates: US Department of Energy
Role of chromium in Cr–Fe oxide catalysts for high temperature water-gas shift reaction–A DFT study
O Yalcin, IE Wachs, I Onal
International Journal of Hydrogen Energy 46 (33), 17154-17162, 2021
Mandates: Scientific and Technological Research Council of Turkey
Role of local structure on catalytic reactivity: Comparison of methanol oxidation by aqueous bioinorganic enzyme mimic (vanadium haloperoxidase) and vanadia-based heterogeneous …
O Yalcin, JE Molinari Erwin, D Gerceker, I Onal, IE Wachs
ACS Catalysis 10 (2), 1566-1574, 2019
Mandates: US National Science Foundation
In Situ and Operando Raman Spectroscopy of Oxidation Catalysts
IE WACHS, M BAÑARES
Handbook of Advanced Methods and Processes in Oxidation Catalysis: From …, 2014
Mandates: Government of Spain
Temperature-Programmed (TP) Techniques
JM Jehng, IE Wachs, M Ford
Springer Handbook of Advanced Catalyst Characterization, 1005-1029, 2023
Mandates: US Department of Energy
Assignment of Vibrational Bands of Critical Surface Species Containing Nitrogen in the Selective Catalytic Reduction of NO by NH3
MM Mason, IE Wachs, DA Dixon
The Journal of Physical Chemistry A 127 (1), 240-249, 2022
Mandates: US Department of Energy
Available somewhere: 70
Critical literature review of the kinetics for the oxidative dehydrogenation of propane over well-defined supported vanadium oxide catalysts
CA Carrero, R Schlögl, IE Wachs, R Schomaecker
ACS catalysis 4 (10), 3357-3380, 2014
Mandates: US Department of Energy, German Research Foundation
A Perspective on the Selective Catalytic Reduction (SCR) of NO with NH3 by Supported V2O5–WO3/TiO2 Catalysts
JK Lai, IE Wachs
Acs Catalysis 8 (7), 6537-6551, 2018
Mandates: US Department of Energy
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