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Atomic-scale unveiling of multiphase evolution during hydrated Zn-ion insertion in vanadium oxide

Pilgyu Byeon, Youngjae Hong, Hyung Bin Bae, Jaeho Shin, Jang Wook Choi, Sung‐Yoon Chung

2021Nature Communications43 citationsDOIOpen Access PDF

Abstract

Abstract An initial crystalline phase can transform into another phases as cations are electrochemically inserted into its lattice. Precise identification of phase evolution at an atomic level during transformation is thus the very first step to comprehensively understand the cation insertion behavior and subsequently achieve much higher storage capacity in rechargeable cells, although it is sometimes challenging. By intensively using atomic-column-resolved scanning transmission electron microscopy, we directly visualize the simultaneous intercalation of both H 2 O and Zn during discharge of Zn ions into a V 2 O 5 cathode with an aqueous electrolyte. In particular, when further Zn insertion proceeds, multiple intermediate phases, which are not identified by a macroscopic powder diffraction method, are clearly imaged at an atomic scale, showing structurally topotactic correlation between the phases. The findings in this work suggest that smooth multiphase evolution with a low transition barrier is significantly related to the high capacity of oxide cathodes for aqueous rechargeable cells, where the crystal structure of cathode materials after discharge differs from the initial crystalline state in general.

Topics & Concepts

CathodeIntercalation (chemistry)Vanadium oxideAtomic unitsAqueous solutionIonMaterials scienceScanning transmission electron microscopyTransmission electron microscopyOxideVanadiumElectrolytePhase (matter)CrystallographyChemical engineeringChemical physicsChemistryInorganic chemistryNanotechnologyPhysical chemistryElectrodePhysicsOrganic chemistryMetallurgyEngineeringQuantum mechanicsAdvanced battery technologies researchTransition Metal Oxide NanomaterialsElectrocatalysts for Energy Conversion
Atomic-scale unveiling of multiphase evolution during hydrated Zn-ion insertion in vanadium oxide | Litcius