钪
材料科学
锰
掺杂剂
兴奋剂
氧化还原
电极
阴极
离子
无机化学
化学工程
钠
蜂巢
六方晶系
作者
Kodai Moriya,Shinichi Kumakura,Eun Jeong Kim,Y. Miura,Kei Kubota,Ryoichi Tatara,Shinichi Komaba
标识
DOI:10.1002/adma.202511719
摘要
Abstract Layered sodium manganese oxides are one of the promising candidates as cathode materials for high‐capacity Na‐ion batteries free from rare elements. Among the polytypes of layered sodium manganese oxides, the P’2‐type Na 2/3 MnO 2 electrode exhibits the highest reversible capacity ≈220 mAh g −1 based on the Mn 3+/4+ redox couple; however, the cycle life remained a significant challenge. Because of Jahn‐Teller (JT) active Mn 3+ ions ([Ar] 4s 2 3d 4 ), the layered structure is cooperatively distorted and experiences complex structural changes during Mn 3+/4+ redox accompanied by Na extraction/insertion. The impact of scandium(III) dopant in Na 2/3 [Mn 1‐ x Sc x ]O 2 on the cooperative lattice‐distortion and electrode performance is systematically investigated, and prepartion for distortion‐free hexagonal P2‐type Na 2/3 [(Mn 1‐ x Sc x ) 0.93 □ 0.07 ]O 2 (□ = vacancy) allows the contribution of the vacancies on the Mn site to be checked. Furthermore, a comparative study of the case of other trivalent metals of yttrium(III) and aluminum(III) as dopants is demonstrated. Thus, it is concluded that a unique synergetic effect of the Sc doping and JT distortion provides significant improvement of redox activity of P’2‐Na 2/3 [Mn 1‐ x Sc x ]O 2 , demonstrating stable cycling for more than 300 cycles in a Na‐ion cell. The findings highlight the critical role of the coexistence of the Sc dopant and honeycomb ordering of Mn IV (Mn III 1‐ x Sc III x ) in [Mn 1‐ x Sc x ]O 2 slabs of P’2‐Na 2/3 [Mn 1‐ x Sc x ]O 2 on the stable redox for long‐life Na‐ion batteries.
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