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Supporting Information
A Time Saving and Cost Effective Route for Metal Oxides Activation
Sajjad Ahmed Khan Leghari a,c, Shamaila Sajjad a,b* and Jinlong Zhanga
a Lab for Advanced Materials and Institute of Fine Chemicals, East China University of Science 5
and Technology, 130 Meilong Road, Shanghai, 200237, P. R. China
b International Islamic University, H-10, Islamabad, Pakistan.
c Pakistan Institute of Engineering and Applied Sciences, Islamabad, Pakistan.
E-mail: [email protected]
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Figure S1. DRS plots of Kubelka-Munk function versus the energy of the light absorbed and
photograph of different samples of metal oxides. (a) Pure WO3; (b) Evacuated WO3; (c) Pure ZnO; (d)
Evacuated ZnO; (e) Pure CeO2; (f) Evacuated CeO2; (g) Pure Degussa P-25; (h) Evacuated Degussa P-
25 and UV-Vis diffused transmittance spectra in the inset. 5
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Figure S2. N2 isotherms of different samples: (a) pure WO3; (b) evacuated WO3 and pore size
distribution in the inset.
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Figure S3. Thermo gravimetric analysis (TGA) of different samples (a) Pure WO3; (b) Evacuated
WO3; (c) Pure ZnO; (d) Evacuated ZnO; (e) Pure CeO2; (f) Evacuated CeO2; (g) Pure Degussa P-25;
(h) Evacuated Degussa P-25. 5
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Figure S4. X-ray photoelectron spectra of different metal oxides: (a) Pure WO3; (b) Evacuated WO3;
(c) Pure ZnO; (d) Evacuated ZnO; (e) Pure CeO2; (f) Evacuated CeO2; (g) Pure Degussa P-25; (h)
Evacuated Degussa P-25.
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Figure S5. Deconvolution X-ray photoelectron spectra of O1s of different pure and evacuated metal
oxides (a) Pure WO3; (b) Evacuated WO3: (c) Pure ZnO; (d) Evacuated ZnO; (e) Pure CeO2; (f)
Evacuated CeO2; (g) Pure Degussa P-25 TiO2 and (h) Evacuated Degussa P-25 TiO2.
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Figure S6. Photoluminescence spectra of different metal oxides: (a) Pure WO3; (b) Evacuated WO3; 5
(c) Pure ZnO; (d) Evacuated ZnO; (e) Pure CeO2; (f) Evacuated CeO2; (g) Pure Degussa P-25 and (h)
Evacuated Degussa P-25.
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Figure S7. Comparative photo catalytic degradation profile of different pollutants over pure and
evacuated metal oxides under visible light. 5
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Figure S8. Photographs of photo degradation of 10 mgL-1
MB (A) before and (B) after visible light
irradiation for 75 min. on the vacuum activated WO3, and 10 mgL-1
MO (C) before and (D) after
visible light (>420nm) irradiation for 6 hours on the vacuum activated WO3.
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Figure S9. UV-Vis absorption spectra of MO in evacuated WO3 suspensions after visible light
(>420nm) irradiation for 3 hours (initial conc. of MO= 10mg L−1
, amount of catalyst = 1.0 g L−1
). a. 10
pure absorption spectrum of MO dye b. adsorption of MO c. degradation after 1 h irradiation d.
degradation after 2 h irradiation e. degradation after 3h.
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Figure S10. Recycling of catalyst for the photo degradation of 10 mgL-1
MO after visible light
(>420nm) irradiation for 6 hours on evacuated WO3.
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Figure S11. Photo graphs of pure, vacuum activated WO3 and evacuated WO3 after the photo catalytic
degradation reaction illustrating photo stability. 15
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Table S1 Comparative X-ray diffraction parameters and BET surface area of different pure and
evacuated metal oxides.
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Samples 2θ FWHM (2θ) d-spacing [Å] Crystallite size
(nm)
BET area (m
2 g
-1)
WO3- Comm. 23.399 0.286 3.6451 43.03 ± 3 6.88
WO3- Evac. 24.480 0.329 3.6333 39.04 ± 3 5.01
ZnO- Comm. 36.240 0.503 2. 4767 20.05 ± 3 34.0
ZnO - Evac. 36.280 0.521 2. 4741 19.01 ± 3 27.0
CeO2- Comm. 28.500 0.344 3.1293 9.63 ± 3 79.4
CeO2- Evac. 28.520 0.329 3.1271 9.34 ± 3 67.2
P-25- Comm. 25.280 0.570 3. 5201 17.18 ± 3 51.4
P-25- Evac. 25.300 0.571 3.5174 17.14 ± 3 47.0
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