Pd nanocrystals encapsulated in MOF-derived Ni/N-doped hollow carbon nanosheets for efficient thermal CO oxidation: unveiling the effect of porosity

Abstract: Rational synthesis of Ni-metal-organic-framework (MOF)-derived hollow N-doped carbon (Ni-MOF-HNC) nanostructures has garnered great attention in various catalytic reactions, due to their outstanding catalytic and physicochemical merits, but their activity toward...

“…The porous structure was formed by the irregular stacking of the nanosheets. 33 The crystal structure investigated by powder XRD is presented in Fig. 3c.…”

Surfactant-free 2D/2D Pd/g-C₃N₄ for enhanced photocatalytic CO₂ reduction

“…The porous structure was formed by the irregular stacking of the nanosheets. 33 The crystal structure investigated by powder XRD is presented in Fig. 3c.…”

Surfactant-free 2D/2D Pd/g-C₃N₄ for enhanced photocatalytic CO₂ reduction

“…Unlike other supports, metal–organic framework-derived porous N/Co-doped carbon (MOF-PNC) nanostructures possess outstanding features ( i.e. thermal/chemical stability and impressive surface area), and rich metal-N x active sites, 22–24 which are beneficial for uniform distribution and stabilization of Pd NPs. 25–27 In addition, they make Pd active sites readily accessible and maximize their utilization for thermal CO Oxid .…”

Metal–organic framework-derived hierarchical porous N/Co-doped carbon-supported sponge-like Pd–SnO₂ nanostructures for low-temperature CO oxidation

The advancement of porous bimetal nanostructures for electrochemical CO2 utilization to valuable products: Experimental and theoretical insights