… For LIBs, one of the major limitations is the slow Li ion transport in electrode materials … the
surface capacitive (or pseudocapacitive) charge storage and diffusion-controlled redox charge …

… for charge storage reactions. For instance, mesopores and macropores contribute to the rapid
transport of … a large accessible surface area and low resistance transport pathway for ion/…

… charge storage mechanism is identified correctly. This tutorial review first defines faradaic and
capacitive charge … that the transport of ions within the electrolyte to an electrode surface (eg…

… capacitive charge storage … capacitive charge storage capability of up to 1360 F cm –3
even in a Mg-ion based neutral electrolyte, with contributions from both nanofluidic ion transport …

… We further evaluated the charge storage mechanism and found that pseudocapacitance
arising from surface-controlled redox reactions, coupled with excellent charge-transfer …

… capacitive deionization (FCDI) device (designated as M-FCDI), and obtained a much reduced
charge transport … as current collector, and the charge efficiency remained over 75% even …

… ionic transportation and render the capacitive deionization process desirable. … charged
porous carbon nanofibers with opposite surface charges for high performance inverted capacitive …

… carriers for the compact HOPC, where high SCD and fast charge transport can be achieved
simultaneously. Furthermore, the ion diffusion coefficients in HOPC were measured via the …

… than other charged ions. This study hypothesized that the speciation and transport behaviors
… to elucidate such impacts in flow-electrode capacitive deionization (FCDI) cells. Phosphate …

… By virtue of the capacitive charge storage mechanism and efficient ion transport dynamics …
with 93.9% capacity retention after 100 000 charge/discharge cycles at a current density of 5 A …