Nanostructured niobium-doped nickel-rich multiphase positive electrode active material for high-power lithium-based batteries
- Authors
- Park, Nam-Yung; Park, Geon-Tae; Ryu, Ji-Hyun; Park, Seong-Eun; Kim, Jae-Ho; Lee, Seung-Yong; Choi, Junhyeok; Lee, Yong Min; Kim, Min Gyu; Lee, Heebeom; Cline, Joseph P.; Liu, Zhao; Jung, Hun-Gi; Sun, Yang-Kook
- Issue Date
- Feb-2026
- Publisher
- NATURE PORTFOLIO
- Citation
- NATURE NANOTECHNOLOGY, v.21, no.2, pp 240 - 248
- Pages
- 9
- Indexed
- SCIE
SCOPUS
- Journal Title
- NATURE NANOTECHNOLOGY
- Volume
- 21
- Number
- 2
- Start Page
- 240
- End Page
- 248
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211069
- DOI
- 10.1038/s41565-025-02092-y
- ISSN
- 1748-3387
1748-3395
- Abstract
- Ni-rich layered oxide positive electrode active materials are promising for high-energy non-aqueous lithium-based batteries, but their poor structural stability limits their high-power applications. Here, to address this issue, we propose a two-step doping strategy for the synthesis of Ni-rich positive electrode active materials. This involves an initial lithiation of the hydroxide precursor at an intermediate temperature, followed by cooling, dopant mixing and high-temperature calcination. This approach yields positive electrode active materials with nanoscale primary particles, thereby improving mechanical stability and suppressing intergranular cracking. Moreover, the material prepared via a two-step doping strategy exhibits a layered–rocksalt nanostructured multiphase, which reversibly transforms into a layered-spinel nanostructured multiphase upon cell charging, facilitating lithium-ion diffusion. As a result, the nanostructured Nb-doped Ni-rich multiphase positive electrode active material enables improved high-rate performance when tested in both Li metal coin cell and Li-ion pouch cell configurations, also applying electric vertical take-off and landing testing protocols.
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