Interface regulation to enhance electrochemical energy storage

Can interface regulation improve heterostructure electrochemical performance?

Specifically, the high capacity of 996.0 mAh g −1 is achieved at 5 A g −1 after 1000 rounds, demonstrating remarkable lithium storage performance. This research presents a promising approach to enhance heterostructure electrochemical performance through interface regulation strategies.

Does interface regulation increase active sites for lithium-ion storage?

In this study, an interface regulated ZnS@MoS 2 heterostructure was achieved through a designed solvothermal strategy. The designed strategy introduces interface regulation in the heterostructure, increasing active sites for lithium adsorption and improving the overall dynamics of lithium-ion storage.

Does interface regulation improve lithium storage performance in zns@mos 2 heterostructures?

Overall, the interface regulation strategy employed in this study yields uniform ZnS@MoS 2 heterostructures with remarkable lithium storage performance. The interface regulation approach presented in this work provides a simple yet effective strategy for fabricating uniform ZnS@MoS 2 heterostructures with outstanding lithium storage capabilities.

Why is interface regulation important in metal sulfide anode materials?

The interface regulation strategy proves instrumental in mitigating volume expansion issues in metal sulfide anode materials . Introducing nanostructures through interface regulation prevents agglomeration during the synthesis process and enhances the number of interfaces within the heterostructure .

Does the interface regulated zns@mos 2 heterostructure promote electrochemical performance?

During the charging process, the lithium diffusion rate is elevated confirming the promotion in kinetics brought by the interface regulated ZnS@MoS 2 heterostructure (Figure S10). The lithium-ion full cells were assembled to elucidate the excellent electrochemical performance in the interface regulated ZnS@MoS 2 heterostructure.

Does interface regulation affect lithium storage kinetics?

To validate the impact of interface regulation on the lithium storage kinetics, CV tests of MoS 2 -ZnS are conducted with the same scan rate and the result is put in Fig. 3 (b). The CV plots of MoS 2 -ZnS have similar peaks of the ZnS@MoS 2 which implies a similar lithium storage mechanism.