photocatalysis_SP.xlsx

	A	B	C	D	E	F	G	H	I	J	K	L	M	N	O	P	Q	R	S	T	U	V
1	type of info	species name (preferred IUPAC name) checked	species name	synonym	CAS n° (if relevant. if not:NR)	concentration of Secondary products formed min	concentration of Secondary products formed max	unit	Type of VOC tested for abatement	remarks		CAS n° VOC tested for abatment	chemical category	Secondary product (from gas phase reactions. catalytic or surface processes including aging) (Linked)	Conc. Injected to test the abatment	unit	Catalyst	Range of Activity (% of conversion) min	Range of Activity (% of conversion) max	T100 (oC)	Reference	instrument used (linked)
2	individual ref	(2E)-but-2-enal	but-2-enal (2E)	Crotonaldehyde	123-73-9				toluene	alone or in mixture ? See ref Zhong		108-88-3		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Mull et al., Environments 2017, 4, 9; doi:10.3390/environments4010009
3	individual ref		p-cresol	4-Methylphenol	106-44-5				toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	Mull et al., Environments 2017, 4, 9; doi:10.3390/environments4010009
4	individual ref		Acetaldehyde		75-07-0				Toluene	in mixture with ethanol		108-88-3		Y	4000	mgC/m3	Manganese oxide catalysts			20-600	Mull et al., Environments 2017, 4, 9; doi:10.3390/environments4010009
5	individual ref		Acetaldehyde		75-07-0				ethanol	in mixture with toluene		64-17-5		Y	4000	mgC/m3	Manganese oxide catalysts			20-600	Tabakova et al. Catal. Commun. 35 (2013) 51–58
6	individual ref		Acetaldehyde		75-07-0				ethyl acetate			141-78-6		Y	1500	ppm	CuO/ZSM-5			235	Tabakova et al. Topics in Catal. 60 (2017) 110-122
7	individual ref		Acetaldehyde		75-07-0				1-Methyl-4-(prop-1-en-2-yl)cyclohex-1-ene	in mixture with eucalyptol, isocineole, camphene,o-cymene, p-cymene	d-limonene	138-86-3		Y	38.7 ± 7.0		TiO2 mass			22 ± 1	Manzolli et al., J. Mater. Chem. A, 5 (2017) 2083-2094
8	individual ref		acetaldehyde		75-07-0				Trichloromethane			67-66-3		Y	25–300	mg/m3	Glass fiber tissue supported TiO2			20	Tabakova et al. Topics in Catal. 60 (2017) 110-122
9	individual ref		acetaldehyde		75-07-0	168.9			ethanol	alone or in mixture ? See ref Zhong		64-17-5		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		34	20-25	Petrova et al. Catal. Commun. 36 (2013) 84-88
10	individual ref		acetaldehyde		75-07-0	4.6			toluene	alone or in mixture ? See ref Zhong		108-88-3		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Tabakova et al. Chem. Eng. J., 260 (2015) 133–141
11	individual ref		acetaldehyde		75-07-0				Propan-2-one	conversion after 120 min		67-64-1		Y	400	ppm	Cristal AT-1, support flat glass disk		49	250	Ilieva et al. Catalysts, 8 (2018) 283.
12	summary	acetaldehyde	acetaldehyde		75-07-0									Y
13	individual ref	acetic acid	acetic acid		64-19-7				Propan-2-one	conversion after 120 min		67-64-1		Y	400	ppm	Cristal AT-1, support flat glass disk		49	250	Tabakova et al, Appl. Sci,
14	individual ref		benzaldehyde		100-52-7	0.3			toluene	alone or in mixture ? See ref Zhong		108-88-3		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Brunet et al., C. R. Chimie, 18 (2015) 1084-1093
15	individual ref		benzaldehyde		100-52-7				toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	Barakat et al. Appl. Catal. B, 146 (2014) 138– 146

16			benzaldehyde		100-52-7									Y
17	split		benzaldehyde						toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	Hosseini et al., Appl. Catal. B, 111-112 (2012) 218–224
18	summary	benzaldehyde	benzaldehyde		100-52-7									Y
19	summary		butanal		123-72-8	0.4			toluene	alone or in mixture ? See ref Zhong		108-88-3		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Hosseini et al., Appl. Catal. B, 111-112 (2012) 218–224
20			carbon dioxide		124-38-9				Toluene			108-88-3		Y	30	ppm	Mesoporous TiO2		62	20-600	Li et al. Appl. Catal. B, 110 (2011) 279
21			carbon dioxide		124-38-9				benzene			71-43-2		Y	1000		Mn3O4, Mn2O3 and MnO2			120	Liu et al. Appl. Catal. B, 127 (2012) 47
22			carbon dioxide		124-38-9				toluene			108-88-3		Y	2000		Mn3O4, Mn2O3 and MnO2			120	Chen et al. Appl. Catal. B, 154-155 (2014) 73
23	split		carbon dioxide		124-38-9				Toluene	in mixture with ethanol		108-88-3		Y	4000	mgC/m3	Manganese oxide catalysts			20-600	Chen et al. Appl. Catal. B, 132-133 (2013) 245
24	split		carbon dioxide		124-38-9				ethanol	in mixture with toluene		64-17-5		Y	4000	mgC/m3	Manganese oxide catalysts			20-600	An et al., Chem. Eng. J. 215-216 92013) 1.
25			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	900	ppm	Co3O4@MnOx			195	An et al., Chem. Eng. J. 215-216 92013) 1.
26			carbon dioxide		124-38-9				ethyl acetate			141-78-6		Y	900	ppm	Co3O4@MnOx			200	Maggos et al., Appl. Sci. 2019, 9, 4837
27			carbon dioxide		124-38-9		95	ppm	toluene			108-88-3		Y	900	ppm	Co3O4@MnOx			220	Y. Zeng et al. / Chemosphere 244 (2020) 125567
28			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	580	ppm	Co3O4@MnOx			184	S.C. Kim, W.G. Shim / Applied Catalysis B: Environmental 98 (2010) 180–185
29			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	580	ppm	commercial Co3O4			250	S.C. Kim, W.G. Shim / Applied Catalysis B: Environmental 98 (2010) 180–185
30			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	580	ppm	commercial MnO2			190	V.P. Santos et al. / Applied Catalysis B: Environmental 99 (2010) 353–363
31			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	580	ppm	MnOx from KMnO4			219	V.P. Santos et al. / Applied Catalysis B: Environmental 99 (2010) 353–364
32			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	1000	ppm	MneCe(2/1)/Al-MSPs			175	V.P. Santos et al. / Applied Catalysis B: Environmental 99 (2010) 353–364
33			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	1000	ppm	Ce/AleSiO2-400			216	V.P. Santos et al. / Applied Catalysis B: Environmental 99 (2010) 353–364
34			carbon dioxide		124-38-9				Propan-2-one			67-64-1		Y	500	ppm	Mn0.3Ti-NFs			290	Zhao et al. / Chemosphere 244 (2020) 125532
35			carbon dioxide		124-38-9				ethyl acetate			141-78-6		Y	1000	ppm	0.91Au0.48Pd/a-MnO2			187	Zhao et al. / Chemosphere 244 (2020) 125532
36	split		carbon dioxide		124-38-9				ethyl acetate			141-78-6		Y	1500	ppm	CuO/ZSM-5			235	Zhao et al. / Chemosphere 244 (2020) 125532
37			carbon dioxide		124-38-9				toluene			108-88-3		Y	0.08	vol%	Pd/Co3AlO (WIE)			272	Zhao et al. / Chemosphere 244 (2020) 125532
38			carbon dioxide		124-38-9				Formaldehyde			50-00-0		Y			BiOCl/TiO2/sepiolite				Zhao et al. / Chemosphere 244 (2020) 125532
39			carbon dioxide		124-38-9				hexane		n-hexane	110-54-3		Y	200		Ag-CuO: Cu(NO3)2_3H2O/AgNO3		<50-250		Zhao et al. / Chemosphere 244 (2020) 125532
40			carbon dioxide		124-38-9				toluene			108-88-3		Y	50		ZnO and ZnO/ND catalysts			25	Zhao et al. / Chemosphere 244 (2020) 125532
41			carbon dioxide		124-38-9				propene			115-07-01		Y	100	ppmV	TiO2, P25		100%	25	L.-Y. Lin, H. Bai / Chemical Engineering Journal 291 (2016) 94–105
42	split		carbon dioxide		124-38-9				toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	L.-Y. Lin, H. Bai / Applied Catalysis B: Environmental 148–149 (2014) 366–376
43	split		carbon dioxide		124-38-9				benzene	mixture benzene, toluene, ethylbenzene, m-xylene, ref Shayegan, Dip coating, RT~ 116 s		71-43-2		Y	3.3 ± 0.2	ppm	TiO2;Support: Glass;Coating method:Dip coating	56	100		X. Zhu et al. / Journal of Hazardous Materials 337 (2017) 105–114
44	split		carbon dioxide		124-38-9				toluene	mixture benzene, toluene, ethylbenzene, m-xylene, ref Shayegan, Dip coating,RT~ 74 s		108-88-3		Y	9,5 ± 0.5	ppm	TiO2;Support: Glass;Coating method:Dip coating	64	98		Xia et al JOURNAL OF ENVIRONMENTAL SCIENCES 64 (2018) 276–288
45	split		carbon dioxide		124-38-9				ethylbenzene	mixture benzene, toluene, ethylbenzene, m-xylene, ref Shayegan, Dip coating,RT~ 42 s		100-41-4		Y	9,5 ± 0.6	ppm	TiO2;Support: Glass;Coating method:Dip coating	65	98		Y. Zhou et al. / Journal of the Taiwan Institute of Chemical Engineers 84 (2018) 162–172
46	split		carbon dioxide		124-38-9				m-xylene	mixture benzene, toluene, ethylbenzene, m-xylene, ref Shayegan, Dip coating,				Y	15 ± 1	ppm	TiO2;Support: Glass;Coating method:Dip coating	68	95		Y. Zhou et al. / Journal of the Taiwan Institute of Chemical Engineers 84 (2018) 162–172
47	split		carbon dioxide		124-38-9				Propan-2-one	conversion after 120 min		67-64-1		Y	400	ppm	Cristal AT-1, support flat glass disk		49	250	Y. Zhou et al. / Journal of the Taiwan Institute of Chemical Engineers 84 (2018) 162–172
48	summary		carbon dioxide		124-38-9									Y
49	split		check correspondance to species tested VUV Formaldehyde (4,4–17,4), acetaldehyde (5,3–7,8), Propan-2-one (2,9–4,2), 2-butenal (4,6–12,2), butanal (0,2–1,8), benzaldehyde(1,5–3,7)						toluene??	alone or in mixture ? See ref Zhong				Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Peng et al 2017, Remote Sens. 2017, 9, 101
50	split		Ethanol		64-17-5				ethyl acetate			141-78-6		Y	1500	ppm	CuO/ZSM-5			235	P. Li et al. / Applied Catalysis B: Environmental 101 (2011) 570–579
51	split		ethanol		64-17-5		3	ppb	Trichloromethane			67-66-3		Y	25–300	mg/m3	Glass fiber tissue supported TiO2			20	Harb et al, Chemical Engineering Journal 380 (2020) 122525
52	summary		ethanol		64-17-5									Y
53	summary	Ethene	Ethene		74-85-1		31	ppb	1,3-Xylene		m-xylene	108-38-3		Y	10.2	ppm	TiO2		92	50 ± 2	Harb et al, Chemical Engineering Journal 380 (2020) 122525
54	split		Formaldehyde		50-00-0		22	ppb	1-Methyl-4-(prop-1-en-2-yl)cyclohex-1-ene	in mixture with eucalyptol, isocineole, camphene,o-cymene, p-cymene	d-limonene	138-86-3		Y	38.7 ± 7.0		TiO2 mass			22 ± 1	Harb et al, Chemical Engineering Journal 380 (2020) 122525
55	split		formaldehyde		50-00-0	27	12	ppb	ethanol	alone or in mixture ? See ref Zhong		64-17-5		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		34	20-25	Harb et al, Chemical Engineering Journal 380 (2020) 122525
56	split		formaldehyde		50-00-0	10.3			toluene	alone or in mixture ? See ref Zhong		108-88-3		Y	0,25-0,5-1	ppm	TiO2;Support:FGFs and CCFs		20	20-25	Harb et al, Chemical Engineering Journal 380 (2020) 122525
57	split		formaldehyde		50-00-0				Propan-2-one	conversion after 120 min		67-64-1		Y	400	ppm	Cristal AT-1, support flat glass disk		49	250	Harb et al, Chemical Engineering Journal 380 (2020) 122525
58	summary	Formaldehyde	Formaldehyde		50-00-0									Y
59	summary	Formic acid	Formic acid		64-18-6				Propan-2-one	conversion after 120 min		67-64-1		Y	400	ppm	Cristal AT-1, support flat glass disk		49	250	Harb et al, Chemical Engineering Journal 380 (2020) 122525
60	summary		hydroquinone		123-31-9				toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	Harb et al, Chemical Engineering Journal 380 (2020) 122525
61	split		in mixture, see d-minonene, ref Harb						1,3,3-Trimethyl-2-oxabicyclo[2.2.2]octane	in mixture, see d-minonene, ref Harb	eucalyptol	470-82-6		Y	2.0 ± 0.3		TiO2 mass			22 ± 1	Harb et al, Chemical Engineering Journal 380 (2020) 122525
62	split		in mixture, see d-minonene, ref Harb						1-methyl-4-propan-2-yl-7-oxabicyclo[2.2.1]heptane	in mixture, see d-minonene, ref Harb	1,4-Cineole	470-67-7		Y	1.9 ± 0.3		TiO2 mass			22 ± 1	Harb et al, Chemical Engineering Journal 380 (2020) 122525
63	split		in mixture, see d-minonene, ref Harb				90.29	mg/m3	2,2-Dimethyl-3-methylidenebicyclo[2.2.1]heptane	in mixture, see d-minonene, ref Harb	camphene	79-92-5		Y	0.5 ± 0.1		TiO2 mass			22 ± 1	Xu et al, Building and Environment 168 (2020) 106481
64	split		in mixture, see d-minonene, ref Harb						1-methyl-2-propan-2-ylbenzene	in mixture, see d-minonene, ref Harb	o-cymene	527-84-4		Y	0.6 ± 0.1		TiO2 mass			22 ± 1	G. Rochard et al Catal. Sci. Technol., 2019, 9, 3203–3213
65	split		in mixture, see d-minonene, ref Harb						1-Methyl-4-(propan-2-yl)benzene	in mixture, see d-minonene, ref Harb	p-cymene	99-87-6		Y	0.6 ± 0.1		TiO2 mass				M. Abidi, et al.,Applied Catalysis B: Environmental 259 (2019) 118074
66	summary	methanol	methanol		67-56-1				Trichloromethane			67-66-3		Y	25–300	mg/m3	Glass fiber tissue supported TiO2			20	Suarez et al, Materials 2019, 12, 3858
67			NA						Toluene			108-88-3		Y	580	µg/m³	Mn: TiO2		5.36	20	J. Liu, et al., Applied Catalysis B: Environmental 257 (2019) 117880
68			NA				300	ppm	toluene			108-88-3		Y	1000	ppm	Mn14.1e400			267	J. Fernández-Catalá, et al. Journal of Environmental Chemical Engineering 7 (2019) 103408
69			NA						Trichloromethane		chloroform	67-66-3		Y	6	g/m3	CuxO/TiO2-PES fabrics		90		Chawengkijwanich et al journal of Environmental Engineering (United States) (2019)145,6,04019030
70	split		NA						Benzene	in mixture with toluene		71-43-2		Y			TiO2	80	86		Chawengkijwanich et al journal of Environmental Engineering (United States) (2019)145,6,04019030
71	split		NA						toluene	in mixture with benzene		108-88-3		Y			TiO2	80	86		Li et al., Ind. Eng. Chem. Res. 2017, 56, 13857–13865
72			NA				<1.5	ppm	toluene			108-88-3		Y	100-500		Pt/ZnO/SiC			210	T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
73			NA						toluene			108-88-3		Y	1	ppmV	N-TiO2		-80%	5-35	T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
74			NA						Acetaldehyde			75-07-0		Y	500	ppmv	Ag-loaded TiO2		72.00		T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
75	split		NA						toluene	in mixture with acetaldehyde, formaldehyde		108-88-3		Y	300	ppmV	TiO2 nanotubes (TNT)		72.00	23.00	T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
76	split		NA						Acetaldehyde	in mixture: tolene, acetaldehyde, formaldehyde, see ref Weon		75-07-0		Y	1000	ppmV	TiO2 nanotubes (TNT)		72.00	23.00	T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
77	split		NA						formaldehyde	in mixture: tolene, acetaldehyde, formaldehyde, see ref Weon		50-00-0		Y	100	ppmV	TiO2 nanotubes (TNT)		72.00	23.00	T. Zadi et al. Chemical Engineering Journal 349 (2018) 276–286
78	split		NA				10	ppb	toluene			108-88-3		Y	200	ppm	TiO2(TNPs)		46	20 to 80	F.B. Li et al. / Chemosphere 59 (2005) 787–800
79	split		NA				29	ppb	ethanol			64-17-5		Y	0,25-0,-1	ppm	TiO2, support:FGFs	17	38	23	F.B. Li et al. / Chemosphere 59 (2005) 787–800
80	split		NA						ethanol			64-17-5		Y	0,25-0,-1	ppm	TiO2, support:FGFs + UVC	19	43	23	F.B. Li et al. / Chemosphere 59 (2005) 787–800
81	split		NA						ethanol			64-17-5		Y	0,25-0,-1	ppm	TiO2, support:FGFs + VUV	31	53	23	F.B. Li et al. / Chemosphere 59 (2005) 787–800
82	split		NA						benzene			71-43-2		Y	21.2	ppm	TiO2		82	50 ± 2	F.B. Li et al. / Chemosphere 59 (2005) 787–800
83			NA						toluene			108-88-3		Y	8.57	ppm	TiO2		97	50 ± 2	IJiang and Yu, ndoor and Built Environment (2019),0(0) 1–12
84			NA						ethylbenzene			100-41-4		Y	19	ppm	TiO2		83	50 ± 2	Q. Zeng et al. Chemical Engineering Journal 341 (2018) 83–92
85	split		NA						Propan-2-one	conversion after 70 min		67-64-1		Y	400	ppm	Evonik P25, support flat glass disk		100	250	Weon et al., Environ. Sci. Technol. 2018, 52, 9330−9340
86	split		NA						Propan-2-one	conversion after 60 min		67-64-1		Y	400	ppm	Cristal,PC105, support flat glass disk		100	250	Weon et al., Environ. Sci. Technol. 2018, 52, 9330−9340
87	split		NA						Propan-2-one	conversion after 90 min		67-64-1		Y	400	ppm	Kronos 1077, support flat glass disk		100	250	Weon et al., Environ. Sci. Technol. 2018, 52, 9330−9340
88	split		NA						Acetaldehyde	conversion after 60 min		75-07-0		Y	400	ppm	Evonik P25, support flat glass disk		100	250	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
89	split		NA						Acetaldehyde	conversion after 50 min		75-07-0		Y	400	ppm	Cristal,PC105, support flat glass disk		100	250	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
90	split		NA				29.7		Acetaldehyde	conversion after 70 min		75-07-0		Y	400	ppm	Kronos 1077, support flat glass disk		100	250	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
91	split		NA				174		Acetaldehyde	conversion after 120 min		75-07-0		Y	400	ppm	Cristal AT-1, support flat glass disk		46	250	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
92	summary	Nitrogen dioxide	Nitrogen dioxide		10102-44-0		3.3		benzene	in mixture with toluene.ethylbenzene. o-xylene		71-43-2		Y	1	ppmV	Ln3+–TiO2			Room temperature	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
93	split		Nox						Trichloromethane			67-66-3		Y	25–300	mg/m3	Glass fiber tissue supported TiO2			20	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
94	split		NOx				12.2		benzene	in mixture with toluene,ethylbenzene, o-xylene		71-43-2		Y	1	ppmV	Ln3+–TiO2			Room temperature	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
95	summary		NOx											Y
96	summary	Phenylmethanol	Phenylmethanol	Benzyl alcohol	100-51-6		5.8		toluene			108-88-3		Y	400	ppm	Evonik P25, Cristal,PC105, Kronos 1077, and Cristal		52	250	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
97	split		Poly(1-methylethylene)		9003-07-0		3.6		Propene	alone or in mixture ? See ref Shayegan	propylene	115-07-1		Y	200	ppm	TiO2(TNPs)		37	25	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
98	split		Poly(1-methylethylene)		9003-07-0		2.2		Propene		propylene	115-07-1		Y	200	ppm	TiO2(TNPs)		66.3	20 to 80	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
99	split		Poly(1-methylethylene)		9003-07-0		1.3		Propene		propylene	115-07-1		Y	200	ppm	TiO2(TNPs)		80.4	20 to 80	Zhong et al., J. Hazard. Mater. 261 (2013)130–138.
100	summary		Poly(1-methylethylene)		9003-07-0									Y