Overview of the key information of MOFs and MOF composites found in literature related to the catalytic degradation of organic dyes.

Dye	MOF materials	Catalytic efficiency (%)	Reaction conditions	Ref
AB	JUC-138	(90)	4 h, 400 W Hg	164
B41	MIL-100(Fe)	(99–98)	180 min, 15 ppm, pH = 5	178
B41	MOF-199	(∼100%)	180 min, pH = 2–10	179
BG	MIL-101(Cr)@rGO-Pd	(100)	15 min	180
MB	Cd-TCAA	(81)	171 min, 500 W Xe	181
MB	CuTz-1	(100)	8 min, RT, + H2O2, 300 W Xe	182
MB	HPU-3	(97.2)	60 min, + H2O2	183
MB	HPU-4@AgBr	(95)	60 min, 12.75 ppm, 300 W Xe	184
MB	MIL-53	(11)	40 min, UV	185
MB	MIL-88B(Fe)-NH2@TiO2 (SU-3)	(100)	2.5 h, 50–150 ppm, pH = 2–8, + H2O2, 5 W LED	186
MB	MIL-88B(Fe)@BiOI	(80)	80 min, 300 W Xe	187
MB	MIL-88B@BiOI/ZnFe2O	(73.8)	120 min, 10 ppm, 25 °C, LED	188
MB	MIL-88B(Fe)-NH2@g-C3N4	(100)	120 min, 30 ppm + H2O2, 500 W Xe	189
MB	MIL-100(Fe)33%@TiO2	(∼100)	60 min, 50 ppm, + H2O2	190
MB	MIL-100(Fe) and Fe-BTC	(100)	60 min, 30–70 °C pH = 3–7, + H2O2	191
MB	MIL-100(Fe)@FeII	(91)	25 h, + H2O2	192
MB	MIL-101(Fe)@Ag/AgCl/	(99.75)	10 ppm, pH = 7, + H2O2, 500 Xe	193
MB	UiO-66-NH2@ZnTCPc	(68)	120 min, 500 W Xe	194
MB	UiO-66@α-Fe2O3	(100)	55 min, 0.04 mM, 300 W	195
MB	ZIF-8	(83.2)	120 min, 10 ppm, pH = 4–12, 500 W Hg	196