| Literature DB >> 33166057 |
Sung Joo Kim1,2, Daren Wu3, Nahian Sadique4, Calvin D Quilty4, Lijun Wu1, Amy C Marschilok2,3,4, Kenneth J Takeuchi3,4, Esther S Takeuchi2,3,4, Yimei Zhu1,5.
Abstract
Aqueous Zn/α-MnO2 batteries have attracted immense interest owing to their high energy density, low cost, and safety, making them desirable for future large-scale energy application. Despite these merits, the comprehensive understanding of their reaction mechanism has been elusive due to the limitations of standard bulk characterization. Here, via transmission electron microscopy, the dissolution-mediated reaction mechanism of a Zn/α-MnO2 system is discovered and explored in full scope to involve reversible formation of Zn4 SO4 (OH)6 ·xH2 O and "birnessite-like" Zn-MnOx phase upon cycling. Overall, α-MnO2 acts primarily as a source for cell activation through dissolution and thus is not directly involved in the Zn redox chemistry. This microscopic study offers a unique knowledge on the unconventional reaction chemistry of Zn/α-MnO2 batteries.Entities:
Keywords: aqueous zinc-ion batteries; manganese oxides; scanning transmission electron microscopy
Year: 2020 PMID: 33166057 DOI: 10.1002/smll.202005406
Source DB: PubMed Journal: Small ISSN: 1613-6810 Impact factor: 13.281