High-performance supercapacitor based on nanocages with nanoporous thin-walled graphitic shells

“…193 A similar approach has been used to produce graphitic nanocages by bubbling a mixture of nitrogen and carbon-rich gas such as acetylene through liquid iron pentacarbonyl and passing the resulting vapour through a tube furnace. 194,195 High pressure reactors have also been used for catalytic graphitization of ferrocene. 196 A nal note on the use of organometallic prearccursors is that they can be readily templated.…”

Iron-catalyzed graphitization for the synthesis of nanostructured graphitic carbons

“…193 A similar approach has been used to produce graphitic nanocages by bubbling a mixture of nitrogen and carbon-rich gas such as acetylene through liquid iron pentacarbonyl and passing the resulting vapour through a tube furnace. 194,195 High pressure reactors have also been used for catalytic graphitization of ferrocene. 196 A nal note on the use of organometallic prearccursors is that they can be readily templated.…”

Iron-catalyzed graphitization for the synthesis of nanostructured graphitic carbons

“…Hence, such a layer-by-layer Fe 3 O 4 /CF alignment provides a novel method for advanced electrodes, which might be widely used in areas as supercapacitors, catalysis, adsorbents and fuel cells. [52][53][54][55][56][57][58][59][60]…”

Layer-by-layer anodes with an orientation-arranged structure induced by magnetic field for high-performance lithium ion batteries

“…The present study demonstrated only one example as anodes of LIBs for application of the present GNCs. They could have many other applications in wide areas as adsorbents, electrode materials, or energy storage media, [29][30][31][32][33] because they have unique structure and high specic surface area.…”

Doping-template approach of porous-walled graphitic nanocages for superior performance anodes of lithium ion batteries