g-C<sub>3</sub>N<sub>4</sub>光催化性能的研究进展

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2 化学掺杂对g-C₃N₄光催化性能的影响

Table 2 Influence of chemical binding modification on photocatalytic performance of g-C₃N₄

Introduced<br/>component	Application	Photocatalytic performance of unmodified 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
PMDA<br/>	Hydrogen generation by hydrolysis	7.0	20.6	[44]
	Oxygen generation by hydrolysis	0.8	7.7
	Degradation of MO	0.0050	0.0557
ABN<br/>	Hydrogen generation by hydrolysis	18^[b]	147^[b]	[83]
ABN<br/>	Hydrogen generation by hydrolysis	127^[c]	229^[c]	[83]
BA<br/>	Hydrogen generation by hydrolysis	148.2^[d]	253.1^[d]	[84]
BA<br/>	Hydrogen generation by hydrolysis	6.5^[e]	29.4^[e]	[84]
B, F	Oxidation of cyclohexane	1.6^[f]	5.3^[f]	[91]
F	Hydrogen generation by hydrolysis	4.9	13.0	[87]
F	Oxidation of benzene	0.0001	0.0021	[87]
S	Hydrogen generation by hydrolysis	20^[d]	160^[d]	[29]
S	Hydrogen generation by hydrolysis	10^[e]	75^[e]	[29]
B	Degradation of RhB	0.055	0.199	[86]
C	Degradation of RhB	0.0081	0.0362	[90]
	Reduction of Cr(Ⅵ)	0.0010	0.0017
	Hydrogen generation by hydrolysis	17.8	25.3