1|Introduction Electrical double layers(EDLs)are fundamental to solid-liquid interfacial phenomena,orchestrating charge compensation,ionic ordering,and solvent reorganization.Through these coupled processes,EDLs regul...1|Introduction Electrical double layers(EDLs)are fundamental to solid-liquid interfacial phenomena,orchestrating charge compensation,ionic ordering,and solvent reorganization.Through these coupled processes,EDLs regulate a wide spectrum of behaviors from electrochemical reactivity and colloidal stability to energy transduction and information signaling[1-5].Despite their central importance across chemistry,materials science,and physics,experimental insight into EDLs has been largely shaped by a narrow subset of interfaces,those involving electrically conductive solids[6-9].Classical EDL models,originating from the Helmholtz[10].展开更多
基金supported by the National Natural Science Foundation(Grant No.22479016)China Postdoctoral Science Foundation(Grant No.2025M781041).
文摘1|Introduction Electrical double layers(EDLs)are fundamental to solid-liquid interfacial phenomena,orchestrating charge compensation,ionic ordering,and solvent reorganization.Through these coupled processes,EDLs regulate a wide spectrum of behaviors from electrochemical reactivity and colloidal stability to energy transduction and information signaling[1-5].Despite their central importance across chemistry,materials science,and physics,experimental insight into EDLs has been largely shaped by a narrow subset of interfaces,those involving electrically conductive solids[6-9].Classical EDL models,originating from the Helmholtz[10].
