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Comparative Internal Pressure Evolution at Interfaces of Activated Carbon for Supercapacitors Containing Electrolytes Based on Linear and Cyclic Ammonium Tetrafluoroborate Salts in Acetonitrile

Georgios Nikiforidis, Satyajit Phadke, Mérièm Anouti

2022Advanced Materials Interfaces12 citationsDOIOpen Access PDF

Abstract

Abstract In this study, the real‐time increase in pressure of the accumulated gases at the electrode/electrolyte interface serves as a safety criterion for four conductive electrolytes comprising acetonitrile (ACN) and organic salts. They include tetrafluoroborate as an anion and cyclic 1,1‐dimethylpyrrolidinium (Pyr11 + ), spiro‐(1,1′)‐bipyrrolidinium (SBP + ), acyclic methyl triethyl ammonium (Et 3 MeN + ) or standard tetraethylammonium (Et 4 N + ) as cations. The main focus lies on the SPBF 4 /ACN system. While the concentrated Pyr11BF 4 /ACN exhibits a minimal pressure evolution (≈25 Pa) under ambient conditions at 3.0 V, its electrochemical stability is inferior to SPBF 4 at high operating voltage. The electrolytes with acyclic tetrafluoroborate salts (1.0 mol L −1 ) reveal a 20‐fold increase in pressure due to the weak salt‐ACN interactions and the subsequent high solvent evaporation. The pressure evolution at the interface of activated carbon/electrolyte in electrochemical double layer capacitor (EDLCs) is merely related to the operating voltage and cation nature, viz. Pyr11 + < SBP + < Et 4 N + < Et 3 MeN + . The fixed specific capacity of 109 F g −1 , volumetric capacity of 76 F cm −3 , and moderate gas generation (≈190 Pa at 3.0 V, that shifts to ≈400 Pa at 3.4 V) confirm the safe character of the SPBF 4 /ACN electrolyte for such energy storage devices.

Topics & Concepts

TetrafluoroborateElectrolyteAcetonitrileElectrochemistrySupercapacitorMaterials scienceInorganic chemistrySolventIonic liquidSalt (chemistry)AmmoniumCarbon fibersActivated carbonElectrodeChemistryOrganic chemistryPhysical chemistryComposite materialCatalysisAdsorptionComposite numberSupercapacitor Materials and FabricationConducting polymers and applicationsAdvanced Sensor and Energy Harvesting Materials