Doping and connecting carbon nanotubes

“…It is also known that the structural defects in the form of edge sites can be generated in N-CNTs via the presence of in-layer pyridine groups. 21 Since the double-layer capacitance of edge sites is reported to be an order of magnitude higher than that of the basal plane, 22 one of the contributors towards the higher capacitance of the N-CNT sample is its higher edge site to basal plane ratio, as observed in the higher Raman D/G ratio. By an estimation, we considered that each pyridine group (as measured by XPS) can induce the formation of two C vacancies; then one can expect an additional 4% of edge sites in N-CNTs which could be responsible for a maximum of one-fold increase in the capacitance, which is clearly lower than the observed 5 to 7-fold increase.…”

On the origin of the high capacitance of nitrogen-containing carbon nanotubes in acidic and alkaline electrolytes

“…It is also known that the structural defects in the form of edge sites can be generated in N-CNTs via the presence of in-layer pyridine groups. 21 Since the double-layer capacitance of edge sites is reported to be an order of magnitude higher than that of the basal plane, 22 one of the contributors towards the higher capacitance of the N-CNT sample is its higher edge site to basal plane ratio, as observed in the higher Raman D/G ratio. By an estimation, we considered that each pyridine group (as measured by XPS) can induce the formation of two C vacancies; then one can expect an additional 4% of edge sites in N-CNTs which could be responsible for a maximum of one-fold increase in the capacitance, which is clearly lower than the observed 5 to 7-fold increase.…”

On the origin of the high capacitance of nitrogen-containing carbon nanotubes in acidic and alkaline electrolytes

“…215,216 Another widely used parametrization for carbon by Xu et al 217 has been successfully applied to simulations of irradiation effects in carbon nanomaterials. 12,18,218 …”

“…Doping may be implemented by intercalating foreign atoms into the open space in the carbon network [394][395][396] or by substituting the host atoms with impurities. 218,[397][398][399][400][401][402][403][404][405] As for substitutional doping, much attention has recently been given to the doping of nanotubes with boron and nitrogen atoms. This is a natural choice of the dopant, as B and N atoms are the neighbors of C in the Periodic Table and thus have roughly the same atomic radius as C, while they possess one electron less or more than C, respectively.…”

Ion and electron irradiation-induced effects in nanostructured materials

“…41 The produced N-MWNTs were then heat treated under an argon flow for 30 min at various temperatures, ranging from 1000 °C to 2000 °C, using a graphite furnace. Before heating, the graphite furnace was vacuumed (0.13 MPa) and then flushed with argon gas (1 L/min) in order to eliminate oxygen or exclude the possibility of oxidation in 5 nanotube sample.…”

Enhanced electrical conductivities of N-doped carbon nanotubes by controlled heat treatment