Rechargeable Sodium All-Solid-State Battery | Zendy

Weidong Zhou | Zendy; Yutao Li | Zendy; Sen Xin | Zendy; John B. Goodenough | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Rechargeable Sodium All-Solid-State Battery

Author(s) -

Weidong Zhou,

Yutao Li,

Sen Xin,

John B. Goodenough

Publication year - 2017

Publication title -

acs central science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.893

H-Index - 76

eISSN - 2374-7951

pISSN - 2374-7943

DOI - 10.1021/acscentsci.6b00321

Subject(s) - anode , faraday efficiency , wetting , materials science , stripping (fiber) , battery (electricity) , dendrite (mathematics) , plating (geology) , ceramic , chemical engineering , sodium , metal , polymer , composite material , metallurgy , electrode , chemistry , power (physics) , physics , geometry , mathematics , engineering , quantum mechanics , geophysics , geology

A reversible plating/stripping of a dendrite-free metallic-sodium anode with a reduced anode/ceramic interfacial resistance is created by a thin interfacial interlayer formed in situ or by the introduction of a dry polymer film. Wetting of the sodium on the interfacial interlayer suppresses dendrite formation and growth at different discharge/charge C-rates. All-solid-state batteries were obtained with a high cycling stability and Coulombic efficiency at 65 °C.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research