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Reverse water gas-shift reaction product driven dynamic activation of molybdenum nitride catalyst surface
In heterogeneous catalysis catalyst activation is often observed during the reaction process, which is mostly attributed to the induction by...
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Rh-loaded High-entropy Oxide for Efficiently Catalyzing the Reverse Water-Gas Shift Reaction
Establishing efficient CO 2 hydrogenation technology based on the reverse water-gas shift (RWGS) reaction can effectively alleviate environmental...
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Enhanced activity of bimetallic Fe-Cu catalysts supported on ceria toward water gas shift reaction: synergistic effect
Within the “hydrogen chain”, the hight-emperature water gas shift reaction represents a key step to improve the H 2 yield and adjust the H 2 /CO x ratio...
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Mathematical Modeling of CO2 Reforming of Methane with Reverse Water-Gas Shift Reaction
AbstractSynthesis gas is the cornerstone of many chemical processes for manufacturing a broad range of petrochemical products. In this work, a...
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Impact of the Operation Conditions on the Reverse-Water-Gas Shift Reaction
The reverse water gas shift (rWGS) reaction represents a key technology to realize an end-to-end power-to-liquid process chain. In this work,... -
Efficient reverse water gas shift reaction at low temperatures over an iron supported catalyst under an electric field
The development of high-performance Fe-based catalysts is attractive because Fe is a cost-effective and earth-abundant element. Application of an...
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Effect of Preparation Conditions on Properties of Pt–Re Catalysts Supported on Ceria–Zirconia in Water Gas Shift Reaction (WGSR)
AbstractThe data obtained for the first time on the influence of the sequence of metal deposition and the conditions of formation of the...
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Migration and aggregation of Pt atoms on metal oxide-supported ceria nanodomes control reverse water gas shift reaction activity
Single-atom catalysts (SACs) are particularly sensitive to external conditions, complicating the identification of catalytically active species and...
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Thermodynamic insights on the influence of ionic liquids on the reverse water–gas shift reaction
As global initiatives pivot toward more sustainable industrial processes, the conversion of carbon dioxide (CO 2 ) into high-value chemicals offers a...
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Ceria–Zirconia Supported Platinum Catalysts for the Water-Gas Shift Reaction: The Influence of Support Composition
AbstractThe study is presented on the influence of the composition of a ceria-zirconia support on the structure and the activity in water-gas shift...
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Theoretical insight into the promotion effect of potassium additive on the water-gas shift reaction over low-coordinated Au catalysts
ContextHow to elucidate the effect of alkali metal promoters on gold-catalyzed water-gas shift reaction i ntrinsically remains a challenging, because...
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Three-stage pyrolysis–steam reforming–water gas shift processing of household, commercial and industrial waste plastics for hydrogen production
Five common single plastics and nine different household, commercial and industrial waste plastics were processed using a three-stage (i) pyrolysis,...
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A Review on Water–Gas Shift Reactions Energy Production by Carbon Dioxide Capture
One important method for the industrial hydrogen production for renewable energy is the conventional water–gas shift reaction (WGSR). It is necessary... -
Sorption-Enhanced Water Gas Shift Reaction over a Mechanical Mixture of the Catalyst Pt/Ce0.75Zr0.25O2 and the Sorbent NaNO3/MgO
AbstractResults of studying the sorption-enhanced water gas shift reaction over a mechanical mixture of grains of 5 wt % Pt/Ce 0.75 Zr 0.25 O 2 catalyst...
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Partially sintered copper‒ceria as excellent catalyst for the high-temperature reverse water gas shift reaction
For high-temperature catalytic reaction, it is of significant importance and challenge to construct stable active sites in catalysts. Herein, we...
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Prediction of Catalytic Hydrogen Generation by Water–Gas Shift Reaction Using a Neural Network Approach
Hydrogen (H 2 ) is an environmentally-safe power source and its demands is continuously growing worldwide. The most important approach for its...
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Accelerated discovery of multi-elemental reverse water-gas shift catalysts using extrapolative machine learning approach
Designing novel catalysts is key to solving many energy and environmental challenges. Despite the promise that data science approaches, including...
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Boosting reactivity of water-gas shift reaction by synergistic function over CeO2-x/CoO1-x/Co dual interfacial structures
Dual-interfacial structure within catalysts is capable of mitigating the detrimentally completive adsorption during the catalysis process, but its...
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Active copper structures in ZnO-Cu interfacial catalysis: CO2 hydrogenation to methanol and reverse water-gas shift reactions
Cu-ZnO-based catalysts are widely used to catalyze the CO 2 hydrogenation to methanol and reverse water-gas shift (RWGS) reactions. Herein, via a...
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Effect of Stoichiometry and Method of Synthesis of Powdered Cu–Fe–Al Precursors on the Stability and Activity of CuFeAlO/CuFeAl Ceramometals in the High-Temperature Water Gas Shift Reaction
AbstractThe ceramometal CuFeAlO/CuFeAl catalysts obtained from various powdered Cu–Fe–Al precursors differing in stoichiometry and preparation method...