Lean-water hydrogel electrolyte for zinc ion batteries.
Yanbo WangQing LiHu HongShuo YangRong ZhangXiaoqi WangXu JinBo XiongShengchi BaiChunyi ZhiPublished in: Nature communications (2023)
Solid polymer electrolytes (SPEs) and hydrogel electrolytes were developed as electrolytes for zinc ion batteries (ZIBs). Hydrogels can retain water molecules and provide high ionic conductivities; however, they contain many free water molecules, inevitably causing side reactions on the zinc anode. SPEs can enhance the stability of anodes, but they typically possess low ionic conductivities and result in high impedance. Here, we develop a lean water hydrogel electrolyte, aiming to balance ion transfer, anode stability, electrochemical stability window and resistance. This hydrogel is equipped with a molecular lubrication mechanism to ensure fast ion transportation. Additionally, this design leads to a widened electrochemical stability window and highly reversible zinc plating/ stripping. The full cell shows excellent cycling stability and capacity retentions at high and low current rates, respectively. Moreover, superior adhesion ability can be achieved, meeting the needs of flexible devices.
Keyphrases
- ion batteries
- drug delivery
- hyaluronic acid
- ionic liquid
- wound healing
- tissue engineering
- oxide nanoparticles
- gold nanoparticles
- single cell
- magnetic resonance
- stem cells
- bone mineral density
- escherichia coli
- pseudomonas aeruginosa
- computed tomography
- magnetic resonance imaging
- high intensity
- high resolution
- electron transfer