A flower‐like α‐phase nickel‐cobalt‐manganese hydroxide modified with two‐dimensional Ti3C2 for high performance hybrid supercapacitors

A flower‐like α‐phase nickel‐cobalt‐manganese hydroxide modified with two‐dimensional Ti3C2 for high performance hybrid supercapacitors

Abstract A flower‐like nickel‐cobalt‐manganese hydroxide (NiCoMn‐OH) modified with two‐dimensional Ti3C2 nanoflakes has been synthesized via simple one‐step hydrothermal method. The NiCoMn‐OH/Ti3C2 composite exhibits a high specific capacity of 670.3 C/g at a specific current of 1 A/g, higher than 6...

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Auteurs principaux: Jiaying Zhang, Hanlin Chen, Zhi Chen, Chao Li, Xianhe Meng, Meiqiang Fan, Tingli Ma
Format: article
Langue:EN
Publié: Wiley-VCH 2021
Sujets:
2D Ti3C2
Electrochemical performance
Hybrid Supercapacitor
NiCoMn‐OH
Industrial electrochemistry
TP250-261
Chemistry
QD1-999
Accès en ligne:https://doaj.org/article/9f6a90bc4f0846e5aebb83a39d0a40bb
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Résumé:Abstract A flower‐like nickel‐cobalt‐manganese hydroxide (NiCoMn‐OH) modified with two‐dimensional Ti3C2 nanoflakes has been synthesized via simple one‐step hydrothermal method. The NiCoMn‐OH/Ti3C2 composite exhibits a high specific capacity of 670.3 C/g at a specific current of 1 A/g, higher than 614.6 C/g for NiCoMn‐OH and 8.9 C/g for Ti3C2 at the same conditions. The improved electrochemical performance is due to that Ti3C2 is absorbed and distributed on the surface of NiCoMn‐OH in its situ synthesis process and enhances its electro‐activity. The hybrid supercapacitor based on NiCoMn‐OH/Ti3C2 and RGO shows high specific capacity of 177.5 C/g at 0.5 A/g and 103.1 C/g at 10 A/g, retaining 93.28% of initial capacity after 5000 charge/discharge cycles at 7 A/g. The hybrid supercapacitor also displays extraordinary specific energy of 41.15 Wh/kg at a specific power of 375 W/kg and 21.46 Wh/kg even at 7.5 kW/kg.

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