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Metal–Organic Frameworks: Multifunctional Materials for High-Performance Zn-Halogen Batteries

Ayesha Arif, Xinrui Yan, Adil Mansoor, Tazeen Fatima, Tayyaba Najam, Hassan Akhtar, Muhammad Sufyan Javed, Manzar Sohail, Muhammad Altaf Nazir, Jiantao Zai, Xia Yang, Syed Shoaib Ahmad Shah

2026Nano-Micro Letters18 citationsDOIOpen Access PDF

Abstract

Aqueous zinc batteries are gaining attention as promising alternatives to Li-ion systems, owing to the increased need for safe and cost-effective energy storage. Aqueous Zn-halogen batteries are particularly important because of their low cost and the abundance of precursors. However, critical challenges, such as the shuttle effect, sluggish redox kinetics, and dendrite growth, impede their practical development. Metal-organic frameworks (MOFs) with high porosity, ease of functionalization, and stability offer a multifunctional approach to overcome these limitations. This review systematically examines the advancements in MOF-based Zn-halogen batteries, focusing on their roles in different components of the battery, including the cathode, anode, and separator. This review also highlights the key design strategies for MOF-based materials and then examines the structure-performance relationships through advanced characterization and computational insights. The remaining challenges and future directions are also outlined. Overall, this review provides a roadmap for developing advanced MOF-based Zn-halogen batteries that combine high energy density and long-term durability for next-generation energy storage applications.

Topics & Concepts

Energy storageEnergy densityNanotechnologyElectrochemical energy storageKey (lock)Risk analysis (engineering)DurabilityComputer scienceCharacterization (materials science)Battery (electricity)Biochemical engineeringSystems engineeringHigh energyMaterials scienceEngineeringFuel cellsLow energyEnergy (signal processing)Advanced battery technologies researchAdvancements in Battery MaterialsAdvanced Battery Technologies Research