Dual-function additive enables a self-regulatory mechanism to balance cathode–anode interface demands in Zn‖MnO<sub>2</sub> batteries
Yuying Han, Fangzheng Wang, Lijin Yan, Liang Luo, Yuan Qin, Chong Zhu, Jiangyu Hao, Qizhi Chen, Xuefeng Zou, Yang Zhou, Bin Xiang
Abstract
full cells exhibit exceptional cycling stability and rate performance. This work adopts the approach of seeking common ground and emphasizing the balance of cathode and anode interfacial requirements, which represents a new and significant insight for design of ZMABs with high reversibility and high cyclability.
Topics & Concepts
AnodeCathodeMechanism (biology)Dual (grammatical number)Function (biology)Dual functionMaterials scienceNanotechnologyChemistryComputer sciencePhysicsBiologyCell biologyElectrodeArtContouringQuantum mechanicsLiteratureComputer graphics (images)Physical chemistryAdvanced battery technologies researchAdvanced Battery Technologies ResearchElectrocatalysts for Energy Conversion