{Reference Type}: Journal Article
{Title}: Sulfurized Two-Dimensional Conductive Metal-Organic Framework as a High-Performance Cathode Material for Rechargeable Mg Batteries.
{Author}: Mu Y;Nyakuchena J;Wang Y;Wilkes JR;Luo T;Goldstein M;Elander B;Mohanty U;Bao JL;Huang J;Wang D;
{Journal}: Angew Chem Int Ed Engl
{Volume}: 0
{Issue}: 0
{Year}: 2024 Jul 17
{Factor}: 16.823
{DOI}: 10.1002/anie.202409286
{Abstract}: Rechargeable Mg batteries are a promising energy storage technology to overcome the limitations inherent to Li ion batteries. A critical challenge in advancing Mg batteries is the lack of suitable cathode materials. In this work, we report a cathode design that incorporates S functionality into two-dimensional metal-organic-frameworks (2D-MOFs). This new cathode material enables good Mg2+ storage capacity and outstanding cyclability. It was found that upon the initial Mg2+ insertion and disinsertion, there is an apparent structural transformation that crumbles the layered 2D framework, leading to amorphization. The resulting material serves as the active material to host Mg2+ through reduction and/or oxidation of S and, to a limited extent, O. The reversible nature of S and O redox chemistry was confirmed by spectroscopic characterizations and validated by density functional calculations. Importantly, during the Mg2+ insertion and disinsertion process, the 2D nature of the framework was maintained, which plays a key role in enabling the high reversibility of the MOF cathode.