Derives time-dependent voltage protocols that eliminate an arbitrary number of relaxation modes to accelerate charging and discharging of planar EDLCs in finite time shorter than intrinsic relaxation timescales.
Pireddu , author C
2 Pith papers cite this work. Polarity classification is still indexing.
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Brownian dynamics simulations with control-variate estimators link equilibrium charge fluctuations to frequency-dependent admittance in nanocapacitors, revealing dependence on salt concentration and electrode metallicity.
citing papers explorer
-
Accelerating charging dynamics of electric double-layer capacitors
Derives time-dependent voltage protocols that eliminate an arbitrary number of relaxation modes to accelerate charging and discharging of planar EDLCs in finite time shorter than intrinsic relaxation timescales.
-
Dynamics of charge fluctuations in nanocapacitors: effects of salt concentration and electrode metallicity from Brownian dynamics
Brownian dynamics simulations with control-variate estimators link equilibrium charge fluctuations to frequency-dependent admittance in nanocapacitors, revealing dependence on salt concentration and electrode metallicity.