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Carbonate Ester-Based Electrolyte Enabling Rechargeable Zn Battery to Achieve High Voltage and High Zn Utilization

Kang Zhou, Gaopan Liu, Xiaomeng Yu, Zhi Li, Yonggang Wang

2024Journal of the American Chemical Society63 citationsDOI

Abstract

Owing to the high H 2 O activity, the aqueous electrolyte in the Zn battery exhibits a narrow electrochemical window and inevitable hydrogen evolution reaction, limiting the anode utilization ratio and performance at high voltage. Carbonate ester, the well-developed electrolyte solvent in Li-ion batteries, exhibits aprotic properties and high anodic stability. However, its use in Zn metal batteries is limited due to the low solubility of Zn salts in carbonate esters. Herein, we propose a carbonate ester-based electrolyte (EC:DMC:EMC = 1:1:1 wt %), which contains a new Zn salt (Zn(BHFip) 2 ) characterized by low cost, easy synthesis, and excellent aprotic solvent solubility. The BHFip – anion assists in forming Zn 2+ conductive SEI on the anode and decomposes at high voltage to generate a protective CEI layer on the cathode. The Zn//Zn symmetric cell using such electrolyte achieves a remarkable Zn utilization ratio of 91% for 125 h, which has rarely been reported before. Furthermore, the Zn//LiMn 2 O 4 full cell with an average operation voltage of 1.7 V demonstrates reliable cycling for 135 cycles with an N/P ratio of 1:1. In addition, the Zn//LiNi 0.5 Mn 1.5 O 4 full cell exhibits a high discharge median voltage exceeding 2.2 V for 280 cycles, with the high voltage plateau (above 2 V) constituting 82% of the total capacity.

Topics & Concepts

ElectrolyteChemistryAnodeElectrochemistryBattery (electricity)Electrochemical windowSolubilityInorganic chemistryCathodeCarbonateSolventAqueous solutionSalt (chemistry)Chemical engineeringElectrodeIonic conductivityOrganic chemistryPhysical chemistryQuantum mechanicsEngineeringPhysicsPower (physics)Advanced battery technologies researchAdvanced Battery Materials and TechnologiesAdvancements in Battery Materials
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