Nitrogen‐doped porous carbon supported nonprecious metal single‐atom electrocatalysts: from synthesis to application
Nonprecious metal single‐atom materials have attracted extensive attention in the field of
electrocatalysis due to their low cost, high reactivity, high selectivity, and high atomic …
electrocatalysis due to their low cost, high reactivity, high selectivity, and high atomic …
Metal single atom doped 2D materials for photocatalysis: current status and future perspectives
With the increase of energy crisis and greenhouse effect, the development of new
photocatalytic systems with efficient solar-driven fuels/chemicals production is of great …
photocatalytic systems with efficient solar-driven fuels/chemicals production is of great …
Porous aza-doped graphene-analogous 2D material a unique catalyst for CO2 conversion to formic-acid by hydrogenation and electroreduction approaches
In this work, we report novel single-layered porous aza-fused π-conjugated graphene-
analogous 2D materials (PAG) with well-organized nanopores and consistently allocated …
analogous 2D materials (PAG) with well-organized nanopores and consistently allocated …
Stable and robust single transition metal atom catalyst for CO2 reduction supported on defective WS2
Under mild conditions, carbon dioxide reduction reactions (CO 2 RRs) retain a tremendous
complexity in effective CO 2 activation on metal based catalysts. Single-atom catalysts are …
complexity in effective CO 2 activation on metal based catalysts. Single-atom catalysts are …
Amino functionalized metal-organic framework/rGO composite electrode for flexible Li-ion batteries
Highlights•An amino-functional Ni (BDC)/rGO flexible film electrode is designed.•Ni (BDC)
MOF dissolution was suppressed effectively by the functional NH 2 group.•The composite Ni …
MOF dissolution was suppressed effectively by the functional NH 2 group.•The composite Ni …
Cobalt coordinated two-dimensional covalent organic framework a sustainable and robust electrocatalyst for selective CO2 electrochemical conversion to formic acid
Designing covalent organic frameworks (COFs) with suitable characteristics could meet the
distinctive requirements of various applications, such as catalysis, energy conversion, and …
distinctive requirements of various applications, such as catalysis, energy conversion, and …
Stability and Catalytic Performance of Single-Atom Catalysts Supported on Doped and Defective Graphene for CO2 Hydrogenation to Formic Acid: A First-Principles …
As an essential component of single-atom catalysts, support materials determine the
dispersion, utilization, and stability of single metal atoms. Here, we reported the potential of …
dispersion, utilization, and stability of single metal atoms. Here, we reported the potential of …
Benchmarking the two-dimensional conductive Y3 (C6X6) 2 (Y= Co, Cu, Pd, Pt; X= NH, NHS, S) metal-organic framework nanosheets for CO2 reduction reaction with …
Scrutinizing competent and economical electrocatalysts for carbon-di-oxide reduction
reactions (CO 2 RR) is essential for wide-range commercialization of livestock feed …
reactions (CO 2 RR) is essential for wide-range commercialization of livestock feed …
Carbon-supported non-noble metal single-atom catalysts for electro-catalytic hydrogen evolution reaction
Hydrogen–a renewable and clean energy is deemed as the best alternative to fossil fuels.
Electro-catalytic hydrogen evolution reaction (HER) based on non-noble metals exhibits …
Electro-catalytic hydrogen evolution reaction (HER) based on non-noble metals exhibits …
Density functional theory study of a graphdiyne-supported single Au atom catalyst for highly efficient acetylene hydrochlorination
In this work, supported single Au on graphdiyne is examined as an efficient catalyst for
acetylene hydrochlorination. The adsorption of reactants C2H2 and HCl has a paramount …
acetylene hydrochlorination. The adsorption of reactants C2H2 and HCl has a paramount …