KAUST DepartmentPhysical Science and Engineering (PSE) Division
Material Science and Engineering Program
Material Science and Engineering
Core Labs, King Abdullah University of Science and Technology (KAUST), Thuwal 23955–6900, Saudi Arabia
Office of the VP
Online Publication Date2020-11-01
Print Publication Date2021-03
Embargo End Date2022-11-20
Permanent link to this recordhttp://hdl.handle.net/10754/666210
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AbstractOrganic dual-ion batteries show high energy densities which are, in principle, suitable for large-scale energy storage, but they suffer from inherent instability and safety issues. Aqueous batteries feature low cost, high ionic conductivity, and much improved safety, showing more enormous potential for grid-scale energy storage. Conventional dual-ion batteries (DIBs) involve the reversible intercalation of electrolyte-born anions and cations into cathodes and anodes, respectively. Here we develop a new full aqueous battery involving the co-intercalation of K+ and H+ in both anode and cathode. This dual-ion battery constitutes a cathode of defective Prussian Blue nanostructures, an anode of atomically thin Ti3C2Tx MXene nanosheets, and an aqueous electrolyte of mildly acidic KNO3 solution. The open frameworks of both cathode and anode together with the existence of abundant structural water in both electrodes enable fast kinetics for K+ and H+ (de)intercalation. Accordingly, the full battery exhibits improved energy (e.g., 41.5 Wh kg1 based on both cathode and anode) and power (e.g., 5030 W kg1) densities, whereas capacity retention of 74% can be achieved after 3000 cycles. We believe that this new dual-cation battery design presents a promising way to improve aqueous battery performance.
CitationZhu, Y., Lei, Y., Liu, Z., Yuan, Y., & Alshareef, H. N. (2021). An unconventional full dual-cation battery. Nano Energy, 81, 105539. doi:10.1016/j.nanoen.2020.105539
SponsorsResearch reported in this work was supported by King Abdullah University of Science and Technology (KAUST).