本书主括纳米材料的制备技术，通过不同制备方法制备过渡金属纳米氧化物括水热方法、溶胶凝胶法、共沉淀法、蔗糖辅助燃烧法、高能球磨法等，制备出三维多孔、二维多孔、多级多孔、球形等特殊形貌的纳米材料。所制备的过渡金属纳米氧化物，Fe、Co、Ni元素具有多种价态，很容易实现氧化还原反应，制备成电容器正极材料，具有比容量高、循环性能好的优点。

1. Novel method of preparing hierarchical porous CoFe2 O4 by the citric acid-assisted
sol-gel auto-combustion for supercapacitors
2. Facile synthesis of porous rod-like CuCo2Oa nano-materials for high energy
density asymmetric supercapacitors
3. 2D porous layered NiFe2Oa by a facile hydrothermal method for asymmetric
supercapacitor
4. 3D network-like porous MnCo2 O4 by the sucrose-assisted combustion method for
high-performance supercapacitors
5. Hierarchical porous ZnMn2O4 synthesized by the sucrose-assisted combustion
method for high-rate supercapacitors
6. Facilely synthesized porous ZnCo2 O4 rod-like nanostructure for high-rate
supercapacitors
7. Facilely synthesized NiCo2O4 nanoparticles as electrode material for
supercapacitors
8. Bamboo-based activated carbon@MnO2 nanocomposites for flexible high
performance supercapacitor electrode materials
9. Porous chopsticks-like FeCo2O4 by the hydrothermal method for high-performance
asymmetric supercapacitors