Litcius/Paper detail

Capitalizing on the Iodometric Reaction for Energetic Aqueous Energy Storage

Haowen Sun, Mengxiu Li, Junbing Zhu, Jiangfeng Ni, Liang Li

2024ACS Nano18 citationsDOI

Abstract

Iodometric and iodimetric titrations represent a prevailing technique to determine the concentration of Cu 2+ ions in aqueous solutions; However, their utilization in electrochemical energy storage has been overlooked due to the poor reversibility between CuI and Cu 2+ related to the shuttling effect of I 3 – species. In this work, we developed a 4A zeolite separator capable of suppressing the free shuttling of I 3 – ions, thus achieving a record-high capacity retention of 95.7% upon 600 cycles. Theoretical and experimental studies reveal that the negatively charged zeolite can effectively impede the approach and penetration of I 3 – ions, as a result of electrostatic interaction between them. To explore the practical potential, a hybrid cell of Zn∥I 2 consisting of Cu 2+ redox agent has been assembled with a discharge capacity of 356 mA h g –1 . The cell affords a specific energy of 443 W h kg –1 based on I 2, or 193 W h kg –1 based on both electrodes. This work offers insight on the energy utilization of the iodometric reactions and advocates a Cu 2+ -mediated cell design that could potentially double the capacity and energy of conventional aqueous battery systems.

Topics & Concepts

Aqueous solutionEnergy storageIodometryChemistryEnergy (signal processing)Chemical engineeringMaterials scienceNanotechnologyInorganic chemistryOrganic chemistryPhysicsThermodynamicsEngineeringQuantum mechanicsPower (physics)Advanced battery technologies researchHydrogen Storage and MaterialsAdvanced Battery Materials and Technologies