Ionic liquid in 2D angstrom channels shows non-monotonic conductivity peaking at 26.7 S/m (30x bulk) at 1.02 nm height from ion rearrangements, boosted to 145 S/m with co-solvents like ACN.
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physics.chem-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A committor-guided Milestoning (CoM) algorithm using neural-network ansatz and short trajectories for efficient prediction of mean first passage times in biomolecular systems.
citing papers explorer
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Enhanced Ionic Conductivity of confined Ionic-Liquid in Angstrom-scale 2D channels
Ionic liquid in 2D angstrom channels shows non-monotonic conductivity peaking at 26.7 S/m (30x bulk) at 1.02 nm height from ion rearrangements, boosted to 145 S/m with co-solvents like ACN.
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Fast and accurate committor estimation for kinetics simulations
A committor-guided Milestoning (CoM) algorithm using neural-network ansatz and short trajectories for efficient prediction of mean first passage times in biomolecular systems.