MRS Meetings and Events

 

EN03.03.20 2022 MRS Fall Meeting

Stable Zinc Anodes Enabled by a Zincophilic Polyanionic Hydrogel Layer

When and Where

Nov 28, 2022
8:00pm - 10:00pm

Hynes, Level 1, Hall A

Presenter

Co-Author(s)

Jin-Lin Yang1,Hong Jin Fan1

Nanyang Technological University1

Abstract

Jin-Lin Yang1,Hong Jin Fan1

Nanyang Technological University1
The practical application of Zn metal anode for aqueous batteries is greatly restricted by the catastrophic dendrites growth, intricate hydrogen evolution and parasitic surface passivation. Herein, a polyanionic hydrogel film is introduced as a protective layer on Zn anode with the assistance of saline coupling agent (denote as Zn-SHn). The hydrogel framework with zincophilic -SO<sub>3</sub><sup>–</sup> functional group uniformizes the zinc ions flux and transport, and such hydrogel layer chemically bonded on Zn surface obviously suppresses the dendrites formation by guiding the 3D Zn accumulation. Consequently, very stable and reversible Zn stripping and plating at various currents and capacities is achieved. A full cell by pairing the Zn-SHn anode with a NaV<sub>3</sub>O<sub>8</sub>-1.5 H<sub>2</sub>O cathode shows a capacity of around 176 mAh g<sup>–1</sup> with a capacity retention around 67 % over 4000 cycles at 10 A g<sup>–1</sup>. The presented polyanionic hydrogel film protection strategy paves a new way for future Zn anode design and safe aqueous batteries construction.

Keywords

nanostructure

Symposium Organizers

Haegyeom Kim, Lawrence Berkeley National Laboratory
Raphaële Clement, University of California
Shyue Ping Ong, University of California, San Diego
Yan Eric Wang, Samsung Research America

Symposium Support

Silver
Nissan North America, Inc.
SK on Co., Ltd.
Umicore

Bronze
Materials Horizons
MilliporeSigma

Session Chairs

Haegyum Kim
Weiyang Li

In this Session

EN03.03.01
Dextrin-DADMAC-MBAA Hydrogel for High Ionic Conductible Flexible Aqueous Sodium Ion Hybrid Battery

EN03.03.02
Investigation of Thermodynamic and Structural Properties of Olivine Li- and NaFePO4

EN03.03.04
Printed Zinc-Ion Batteries on Hydrogel Reinforced Cellulose Composite for Paper Electronics

EN03.03.05
Methylthiourea as Electrolyte Additive Strategy for Zn-Metal Anode Stability and Reversibility of Zn-Ion Batteries

EN03.03.06
Fully 3D Printed Aqueous Zinc Ion Batteries for Wearable Electronic Devices

EN03.03.07
Particle Size and Crystal Structure Engineering of λ-MnO2 Particles as Cathodes for Zinc-Ion Batteries

EN03.03.08
Investigation of the Electrochemistry and Functional Properties of Zn/ Manganese Oxide Rechargeable Aqueous Batteries

EN03.03.09
Sodium Vanadium Oxide (NVO) Material Properties—Impact on Electrochemistry and Functional Properties in Zn-Ion Aqueous Batteries

EN03.03.10
Ultrasmall ZnMn2O4 Cathodes for High-Energy and High-Power Aqueous Zinc-Ion Secondary Batteries

EN03.03.11
A Theoretical Investigation of Vanadium-Based Cathodes in Magnesium-Ion Battery

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