Ramona Durena scite author profile

As the world moves towards sustainable and renewable energy sources, there is a need for reliable energy storage systems. A good candidate for such an application could be to improve secondary aqueous zinc–manganese dioxide (Zn-MnO2) batteries. For this reason, different aqueous Zn-MnO2 battery technologies are discussed in this short review, focusing on how electrolytes with different pH affect the battery. Improvements and achievements in alkaline aqueous Zn-MnO2 batteries the recent years have been briefly reviewed. Additionally, mild to acidic aqueous electrolyte employment in Zn-MnO2 batteries has been described, acknowledging their potential success, as such a battery design can increase the potential by up to 2 V. However, we have also recognized a novel battery electrolyte type that could increase even more scientific interest in aqueous Zn-MnO2 batteries. Consisting of an alkaline electrolyte in the anode compartment and an acidic electrolyte in the cathode compartment, this dual (amphoteric) electrolyte system permits the extension of the battery cell potential above 2 V without water decomposition. In addition, papers describing pH immobilization in aqueous zinc–manganese compound batteries and the achieved results are reported and discussed.

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How to Increase the Potential of Aqueous Zn-Mno2 Batteries: The Effect of Ph Gradient Electrolyte

Durena¹,

Zukuls²,

Vanags³

et al. 2022

SSRN Journal

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Ramona Durena

Morphological and optical property study of Li doped ZnO produced by microwave-assisted solvothermal synthesis

How to increase the potential of aqueous Zn-MnO2 batteries: The effect of pH gradient electrolyte

A Short Review: Comparison of Zinc–Manganese Dioxide Batteries with Different pH Aqueous Electrolytes

How to Increase the Potential of Aqueous Zn-Mno2 Batteries: The Effect of Ph Gradient Electrolyte

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