Review Article
Recent Progress of TiO2-Based Anodes for Li Ion Batteries
Table 3
The capacity of reported 2D TiO2 materials for lithium storage.
| | Number | Structures | Performance | Ref. | | Reversible capacity | Charge/discharge rates |
| | 1 | Carbon-supported ultrathin anatase TiO2 nanosheets | ∼150 mA h g−1 | 850 mA g−1 | [23] |
| | 2 | Anatase TiO2 nanosheets | ∼150 mA h g−1 | 1675 mA g−1 | [24] |
| | 3 | TiO2 nanoflakes | ∼261 mA h g−1 | 33 mA g−1 | [25] |
| | 4 | 2D rutile TiO2-MoO3 hybrid structure | ∼240 mA h g−1 | 600 mA g−1 | [26] |
| | 5 | Mesoporous TiO2 nanobelts and graphene sheets | ∼430 mA h g−1 | 1500 mA g−1 | [27] |
| | 6 | TiO2 hollow spheres | ∼148 mA h g−1 | 850 mA g−1 | [28] |
| | 7 | Mesoporous anatase TiO2 sheets/rGO | ∼161 mA h g−1 | 335 mA g−1 | [12] |
| | 8 | petal-like TiO2 nanosheets | ∼180 mA h g−1 | 400 mA g−1 | [29] |
| | | | ∼170 mA h g−1 | 850 mA g−1 | | | 9 |
Sandwich-like, stacked ultrathin titanate nanosheets | ∼155 mA h g−1 | 1700 mA g−1 | [30] | | | | ∼135 mA h g−1 | 3400 mA g−1 | |
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