<p>This study addresses the bottleneck issues of slow magnesium storage kinetics and low capacity of electrode materials in magnesium-ion capacitors (MICs) by proposing a MOF-derived strategy to construct high-performance Mn<sub>2</sub>O<sub>3</sub> electrode materials. This study addresses the bottleneck issues of slow magnesium storage kinetics and low capacity of electrode materials in magnesium-ion capacitors (MICs) by proposing a MOF-derived strategy to construct high-performance Mn<sub>2</sub>O<sub>3</sub> electrode materials. This work validates the feasibility of MOF-derived Mn<sub>2</sub>O<sub>3</sub> as an electrode material for magnesium-ion capacitors, providing a new approach for low-cost, high-safety, and large-scale magnesium energy storage technologies.</p>

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MOF-derived Mn2O3 electrode material: key to enhancing the performance of magnesium-ion capacitors

  • Ping-Ping Sun,
  • Yun-Heng Li,
  • Bo Yang,
  • Hai-Yan Liu

摘要

This study addresses the bottleneck issues of slow magnesium storage kinetics and low capacity of electrode materials in magnesium-ion capacitors (MICs) by proposing a MOF-derived strategy to construct high-performance Mn2O3 electrode materials. This study addresses the bottleneck issues of slow magnesium storage kinetics and low capacity of electrode materials in magnesium-ion capacitors (MICs) by proposing a MOF-derived strategy to construct high-performance Mn2O3 electrode materials. This work validates the feasibility of MOF-derived Mn2O3 as an electrode material for magnesium-ion capacitors, providing a new approach for low-cost, high-safety, and large-scale magnesium energy storage technologies.