Layer-Stacking Sequence Governs Ion-Storage in Layered Double Hydroxides.

In layered materials, the layer-stacking sequence allows the tuning of ion transport and storage properties by modulating the host-ion interactions. However, unlike in the case of cations, the relationship between the stacking sequence and anion transport and storage properties is less clearly understood. Herein, we demonstrate that the stacking sequence governs the nitrate-storage properties of layered double hydroxides (LDHs); the 2 polytype enhances the nitrate-storage capacity to 400% of that of the 3 polytype. A quartz crystal microbalance with dissipation monitoring combined with multimodal experiments indicated that the high ion-storage capacity of the 2 polytype originates from the soft nature of LDHs lattices, which facilitates nitrate with minimal lattice changes. In contrast, the rigid lattice of the 3 sequence requires a notably large lattice expansion, which is detrimental to ion storage. Our findings can aid the rational design of anion-host interaction-derived functionalities.