Add to ORKGNanopores made with low dimensional semiconducting materials, such as carbon nanotubes and graphene slit pores, are used in supercapacitors. In theories and simulations of their operation, it is often assumed that such pores screen ion-ion interactions like metallic pores, i.e. that screening leads to an exponential decay of the interaction potential with ion separation. By introducing a quantum capacitance that accounts for the density of states in the material, we show that ion-ion interactions in carbon nanotubes and graphene slit pores actually decay algebraically with ion separation. This result suggests a new avenue of capacitance optimization based on tuning the electronic structure of a pore: a marked enhancement in capacitance migh...
Over the past decades, the specific surface area and the pore size distribution have been identified...
Capacitances of molecules, fullerenes and carbon nanotubes under the condition of no electron-tunne...
International audienceOver the past decades, the specific surface area and the pore size distributio...
Progress in low-dimensional carbon materials has intensified research on supercapacitors with nanost...
The nature of the electronic interface between a nanotube and solvated ions in a liquid electrolyte ...
The use of nanostructured electrodes in supercapacitor design have the potential to in- crease both ...
Recently observed anomalous properties of ionic-liquid-based nanoporous supercapacitors [C. Largot e...
We perform constant voltage Gibbs ensemble based grand canonical Monte Carlo simulations for nanosiz...
The intimate contact between the electrons in a carbon nanotube and solvated ions in a liquid electr...
International audienceLightweight, low-cost supercapacitors with the capability of rapidly storing a...
We present a comprehensive study of the electrochemical capacitance between a one-dimensional electr...
Lightweight, low-cost supercapacitors with the capability of rapidly storing a large amount of elect...
International audienceLiquids exhibit specific properties when they are adsorbed in nanoporous struc...
Nanoporous carbon-based supercapacitors store electricity through adsorption of ions from the electr...
Over the past decades, the specific surface area and the pore size distribution have been identified...
Capacitances of molecules, fullerenes and carbon nanotubes under the condition of no electron-tunne...
International audienceOver the past decades, the specific surface area and the pore size distributio...
Progress in low-dimensional carbon materials has intensified research on supercapacitors with nanost...
The nature of the electronic interface between a nanotube and solvated ions in a liquid electrolyte ...
The use of nanostructured electrodes in supercapacitor design have the potential to in- crease both ...
Recently observed anomalous properties of ionic-liquid-based nanoporous supercapacitors [C. Largot e...
We perform constant voltage Gibbs ensemble based grand canonical Monte Carlo simulations for nanosiz...
The intimate contact between the electrons in a carbon nanotube and solvated ions in a liquid electr...
International audienceLightweight, low-cost supercapacitors with the capability of rapidly storing a...
We present a comprehensive study of the electrochemical capacitance between a one-dimensional electr...
Lightweight, low-cost supercapacitors with the capability of rapidly storing a large amount of elect...
International audienceLiquids exhibit specific properties when they are adsorbed in nanoporous struc...
Nanoporous carbon-based supercapacitors store electricity through adsorption of ions from the electr...
Over the past decades, the specific surface area and the pore size distribution have been identified...
Capacitances of molecules, fullerenes and carbon nanotubes under the condition of no electron-tunne...
International audienceOver the past decades, the specific surface area and the pore size distributio...