Open-framework indium hexacyanoferrate for high-voltage and coaxially-fibrous aqueous K//Zn battery

The design of eco-friendly fibrous aqueous rechargeable Zn-based batteries is important for the advancement of flexible electronics. But it is still remains extremely difficult to develop high-voltage fibrous Zn-based batteries on a single-fiber architecture that directly influence their energy density. Furthermore, the sluggish Zn²⁺ diffusion kinetics and tough electrostatic interaction seriously astrict to further move ahead for the Zn-based batteries. Herein, we demonstrate a high-voltage coaxially-fibrous aqueous rechargeable (CFAR) K//Zn battery based on open-framework indium hexacyanoferrate (InHCF) cathode. The resultant assembled CFAR K//Zn battery provides an eminent voltage of 1.70 V and a superhigh energy density of 197.88 mWh cm^-3 at 170.4 mW cm^-3. More importantly, our assembled CFAR K//Zn battery exhibits excellent mechanical steadiness with the capacity retention of 92.7 % by following bending at 90° for 4000 times. Therefore, the design of the new-style architecture in high-voltage CFAR K//Zn batteries provides a fresh strategy for economic, reliable, and high-energy-density wearable energy-storage devices.