fig6
![Leveraging novel microwave techniques for tailoring the microstructure of energy storage materials](https://image.oaes.cc/59f3bbc4-b4ff-45f5-97e0-d254b12c2087/microstructures3086.fig.6.jpg)
Figure 6. (A) Porous Ni-Sn-P@C-CNT materials prepared using the liquid-phase microwave method. This figure is quoted with permission[130]; (B) Ni-rich porous oxide nanomaterials fabricated using the liquid-phase microwave method. This figure is quoted with permission[61]; (C) Mesoporous nanostructured ZnCo2O4 prepared via the liquid-phase microwave method, along with characteristics of their reversible capacity in lithium-ion battery applications. This figure is quoted with permission[131]; (D) Nitrogen-incorporated ultrananocrystalline diamond coatings, synthesized through the gas-phase microwave method, exhibit enhanced cycle stability in lithium-ion battery applications. This figure is quoted with permission[81].