g-C3N4光催化性能的研究进展
|
|
楚增勇, 原博, 颜廷楠
|
Recent Progress in Photocatalysis of g-C3N4
|
|
Zeng-Yong CHU, Bo YUAN, Ting-Nan YAN
|
|
| 表3 微观结构对g-C3N4光催化性能的影响 |
| Table 3 Influence of microstructure on the photocatalytic performance of g-C3N4 |
|
| Microstructure | Application | Photocatalytic performance of bulk g-C3N4[a] <br/>/(μmol•h-1, min-1 or %) | Photocatalytic performance<br/>of modified g-C3N4[a]/<br/>(μmol•h-1, min-1 or %) | Reference | | Porous structure | Degradation of RhB | 0.014 | 0.131 | [94] | | Porous structure | Oxidation of toluene | 24[b] | >99[b] | [47] | | Porous structure | Friedel-Crafts reaction of benzene | 0[c] | 90[c] | [53] | | Nanosheet | Degradation of RhB | 0.0012 | 0.0163 | [20] | | Nanorod | Hydrogen generation by hydrolysis | 28 | 84 | [23] | | Hydrogen generation by hydrolysis | 3.9 | 7 | | Nanorod | Degradation of MB | 0.0017[d] | 0.0025[d] | [97] | | 0.0021[e] | 0.0029[e] | | Nanosheet | Hydrogen generation by hydrolysis | 31.0[f] | 169.7[f] | [51] | | 10.7[g] | 31.8[g] | | Nanosheet | Hydrogen generation by hydrolysis | 10.4 | 93.1 | [39] |
|
|
|