Uniform Hollow Carbon Shells: Nanostructured Graphitic Supports for Improved Oxygen‐Reduction Catalysis

Abstract: Nanostructured high-surface-area carbon materials are ubiquitous in many applications, including catalysis, energy storage, and separations. [1][2][3] As supports for catalytic nanoparticles, nanostructured carbons can provide conductive substrates with high surface areas and excellent dispersion characteristics, which are important both for optimizing the synergistic nanoparticle-support interactions and for maximizing the mass activity of expensive precious metal catalysts. [4,5] This is particularly importa… Show more

“…These tiny Co nanoparticles were wrapped in the graphitic carbon layers rather than exposed on the outer surface (Figure e). The interlayer distance of the graphitic carbon layers is 0.34 nm, corresponding to the (002) plane of graphite . Higher‐magnification HRTEM image (Figure f) displays clear lattice fringes with d ‐spacing of about 0.20 nm, which is attributed to the (111) lattice plane of cubic Co, indicating a high degree of crystallinity.…”

MOF‐Derived Hollow Co₉S₈ Nanoparticles Embedded in Graphitic Carbon Nanocages with Superior Li‐Ion Storage

“…These tiny Co nanoparticles were wrapped in the graphitic carbon layers rather than exposed on the outer surface (Figure e). The interlayer distance of the graphitic carbon layers is 0.34 nm, corresponding to the (002) plane of graphite . Higher‐magnification HRTEM image (Figure f) displays clear lattice fringes with d ‐spacing of about 0.20 nm, which is attributed to the (111) lattice plane of cubic Co, indicating a high degree of crystallinity.…”

MOF‐Derived Hollow Co₉S₈ Nanoparticles Embedded in Graphitic Carbon Nanocages with Superior Li‐Ion Storage

“…[39] Similar phase transitions for Ni-C nanoscale system were later also observed by some other groups, and also well consistent with our XRD and TEM results. [22,28,30,31,40] It is therefore reasonable to presume that the chemical state of Ni catalyst should be Ni 3 and Ni within the composite nanoparticles was established. (4) CNFs were grown continuously from metallic Ni/C interfaces.…”

Temperature-dependent chemical state of the nickel catalyst for the growth of carbon nanofibers

“…However, presently HCNS were only applied in catalysis (Lee et al, 2014;Liu et al, 2011), lithiumion battery (Jayaprakash et al, 2011;Liu et al, 2013), oxygen-reduction (Schaefer et al, 2010), supercapacitor (Fang et al, 2014) and water treatment (Cheng et al, 2014;Liu et al, 2014), there is little work focused on the applications of HCNS in electrochemical sensors.…”

Nitrogen-doped hollow carbon spheres wrapped with graphene nanostructure for highly sensitive electrochemical sensing of parachlorophenol