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Multifunctional design of single-atom catalysts for multistep reactions
With the merits of high atom utilization, low cost, unique and tunable microstructures, as well as the particular catalytic behaviors, single-atom...
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Magnesium single-atom catalysts with superbasicity
Magnesium-related solid bases have long been considered catalysts with weak or medium basicity. Here we report the fabrication of Mg single-atom...
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H-Mg Bond Weakening Mechanism of Graphene-Based Single-Atom Catalysts on MgH2(110) Surface
Solid-state hydrogen storage is gradually becoming an effective way for the large-scale storage and transportation of hydrogen energy. Magnesium... -
Methanol Dehydrogenation via Rutile TiO2-Based Single-Atom Catalysts: Structure, Stability, and Selectivity
AbstractSingle-atom catalysts possessing distinct geometric and electronic structures have permitted the highly efficient performance and tunable...
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Ten-electron count rule for the binding of adsorbates on single-atom alloy catalysts
Single-atom alloys have recently emerged as highly active and selective alloy catalysts. Unlike pure metals, single-atom alloys escape the...
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Ensemble effect for single-atom, small cluster and nanoparticle catalysts
A large family of heterogeneous catalytic reactions require active sites with more than one metal atom, that is, an ensemble of metal atoms. The...
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Recent Advances of Single-atom Catalysts for Electro-catalysis
Single-atom catalysis is the “hot spot” in the field of catalysis due to the special geometries, electronic states, and their unique catalytic...
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Single-atom Catalysts Based on Layered Double Hydroxides
Single-atom catalysts(SACs) have attracted much attention for their superior catalytic performance in various fields. It has been widely accepted...
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Single Atom Catalysts in Liquid Phase Selective Hydrogenations
Single atom catalysts(SACs) offer exceptional atom efficiency, activity, and selectivity for many catalytic systems. In recent years, SACs have...
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Recent Advances in CO2 Reduction Reaction to Value-added C1 Products by Single-atom Catalysts
The CO 2 reduction reaction driven by sustainable electrical energy to value-added hydrocarbons is highly attractive because it can address both...
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Advanced Strategies for Stabilizing Single-Atom Catalysts for Energy Storage and Conversion
Well-defined atomically dispersed metal catalysts (or single-atom catalysts) have been widely studied to fundamentally understand their catalytic...
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Regulating the Oxygen Affinity of Single Atom Catalysts by Dual-atom Design for Enhanced Oxygen Reduction Reaction Activity
This work chooses Cu/Fe single-atom catalysts(SACs) with weak/strong oxygen affinity to clarify the effect of dual-atom configuration on oxygen...
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Rational design of iron single-atom catalysts for electrochemical nitrate reduction to produce ammonia
Ammonia (NH 3 ) is the second-most produced chemical with broad applications and vital for the chemical industry. However, the current Haber–Bosch...
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A general approach to 3D-printed single-atom catalysts
A mass production route to single-atom catalysts (SACs) is crucial for their end use application. To date, the direct fabrication of SACs via a...
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A DFT+U Study on Surface Properties and Methane Adsorption Performance of Au1/ZrO2 Single-Atom Catalysts
AbstractSingle-atom catalyst (SAC) is a new type of catalyst with low-cost and high-utilization rate. Its catalytic activity is closely related to...
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Recent progresses in the single-atom catalysts for the oxygen reduction reaction
The development of high-performance electrocatalysts is critical for the widespread applications of the sustainable energy technologies. In this...
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Recent advances on carbon-based nanomaterials supported single-atom photo-catalysts for waste water remediation
Due to the ultra-high efficiency, environmental compatibility, structural/chemical stability, and effective usage of active metal centres, new...
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Advances in Graphene-Supported Single-Atom Catalysts for Clean Energy Conversion
AbstractRecently, heterogeneous single-atom catalysts (SACs) have attracted enormous attention in electrochemical applications owing to their...
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Understanding the direct methane conversion to oxygenates on graphene-supported single 3d metal atom catalysts
Direct methane conversion to value-added oxygenate products is an important approach for the effective utilization of CH 4 . However, selective C─H...