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Rechargeable Aqueous Zinc–Manganese Dioxide/Graphene Batteries with High Rate Capability and Large Capacity

Chunyan Wang, Mingqiang Wang, Zhichao He, Li Liu, Yudong Huang

2020ACS Applied Energy Materials68 citationsDOI

Abstract

Batteries based on Zn and other two-valent metals can be nearly ideal charge storage devices because of their high energy density combined with reliability, earth-abundance, and low flammability. Searching for high-performance positive electrodes with good rate capability and adequate cycle life is currently a hot topic and a great challenge for developing zinc batteries. Here, a binder-free 3D porous graphene aerogel-supported α-MnO2 cathode (G-MnO2) is synthesized via a facile and scalable hydrogel method. The hybrid cathode of α-MnO2 nanotube attached on highly conductive interconnected graphene frameworks enables rechargeable Zn/G-MnO2 batteries with a high capacity of 321 mAhg–1 at 0.2C (1C = 240 mAhg–1), good rate capability, and ultralong cycle life (91% capacity retention over 300 cycles at a high current rate 3C). These findings open the pathway to a large family of low-cost high-performance Zn-batteries and potentially other two-valent metals for a wide range of applications.

Topics & Concepts

Materials scienceGrapheneAerogelCathodeManganeseEnergy storageNanotechnologyElectrodeBattery (electricity)Chemical engineeringMetallurgyElectrical engineeringChemistryPhysical chemistryQuantum mechanicsPower (physics)EngineeringPhysicsAdvanced battery technologies researchAdvanced Battery Materials and TechnologiesAdvancements in Battery Materials
Rechargeable Aqueous Zinc–Manganese Dioxide/Graphene Batteries with High Rate Capability and Large Capacity | Litcius