Bimetal Hydroxide Electrodes: “HOT” Alkaline Hydrolysis of Amorphous MOF Microspheres to Produce Ultrastable Bimetal Hydroxide Electrode with Boosted Cycling Stability (Small 49/2019) | Zendy

Zhang Haobing | Zendy; Xu Ben | Zendy; Mei Hao | Zendy; Mei Yingjie | Zendy; Zhang Shiyu | Zendy; Yang Zhendong | Zendy; Xiao Zhenyu | Zendy; Kang Wenpei | Zendy; Sun Daofeng | Zendy

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Bimetal Hydroxide Electrodes: “HOT” Alkaline Hydrolysis of Amorphous MOF Microspheres to Produce Ultrastable Bimetal Hydroxide Electrode with Boosted Cycling Stability (Small 49/2019)

Author(s) -

Zhang Haobing,

Xu Ben,

Mei Hao,

Mei Yingjie,

Zhang Shiyu,

Yang Zhendong,

Xiao Zhenyu,

Kang Wenpei,

Sun Daofeng

Publication year - 2019

Publication title -

small

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.785

H-Index - 236

eISSN - 1613-6829

pISSN - 1613-6810

DOI - 10.1002/smll.201970267

Subject(s) - bimetal , hydroxide , metal hydroxide , electrode , amorphous solid , materials science , hydrolysis , alkaline battery , inorganic chemistry , aqueous solution , chemical engineering , chemistry , metallurgy , electrolyte , organic chemistry , engineering

In article 1904663, Daofeng Sun and co‐workers separately heat and mix amorphous metal–organic framework (MOF) template/precursor and KOH aqueous solution to 120 °C to produce hydroxide electrode. The hydroxide electrode obtained through this unique “HOT” alkaline is extremely stable during cycling. Furthermore, the low KOH concentration of 0.2 m and recycled ligands during the “HOT” treatment are preferable for practical applications.

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