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Beilstein J. Nanotechnol. 2017, 8, 1546–1552, doi:10.3762/bjnano.8.156
Figure 1: Powder XRD pattern of (a) ZrO2, (b) Pt(1%)–ZrO2, and (c) Pt(1%)–Cu(1%)–ZrO2.
Figure 2: Expanded region of XRD between 29° and 37° of (a) ZrO2, (b) Pt(1%)–ZrO2 and (c) Pt(1%)–Cu(1%)–ZrO2.
Figure 3: HRTEM micrograph of Pt(1%)–Cu(1%)–ZrO2.
Figure 4: TGA measurement of Pt(1%)–Cu(1%)–ZrO2.
Figure 5: Raman spectra of (a) ZrO2, (b) Pt(1%)–ZrO2, and (c) Pt(1%)–Cu(1%)–ZrO2.
Figure 6: CO conversion for pure ZrO2, Pt(1%)–ZrO2, and Pt(1%)–Cu(1%)–ZrO2 nanoparticles (catalyst: 0.5 g, CO...
Figure 7: Stability test of Pt(1%)–Cu(1%)–ZrO2 nanoparticles during the CO oxidation reaction (catalyst: 0.5 ...
Figure 8: Effect of initial CO concentration on CO conversion over Pt(1%)–Cu(1%)–ZrO2. (Catalyst: 0.5 g, GHSV...
Figure 9: Effect of GHSV on CO conversion over Pt(1%)–Cu(1%)–ZrO2. (Catalyst: 0.5 g, CO: 500 ppm, O2: 20% wit...
Figure 10: Schematic diagram of the testing of catalytic activity for CO oxidation reaction.
Beilstein J. Nanotechnol. 2017, 8, 264–271, doi:10.3762/bjnano.8.29
Figure 1: XRD patterns of (a) ZrO2, and (b) Pt(1%)-ZrO2.
Figure 2: Expanded XRD region between 29° and 32° to show the peak shift between (a) ZrO2 and (b) Pt(1%)-ZrO2....
Figure 3: TGA of (a) ZrO2, and (b) Pt(1%)-ZrO2.
Figure 4: TEM micrograph of (a) ZrO2 and (b) Pt(1%)-ZrO2.
Figure 5: High-resolution TEM micrograph of Pt(1%)-ZrO2.
Figure 6: UV–vis spectra of (a) ZrO2 and (b) Pt(1%)-ZrO2.
Figure 7: FTIR spectra of (a) ZrO2 and (b) Pt(1%)-ZrO2.
Figure 8: CO conversion as a function of the temperature for Pt(1%)-ZrO2 and ZrO2 (catalyst: 0.5 g, CO: 500 p...
Figure 9: Time-on-stream stability test of Pt(1%)-ZrO2 for CO conversion (catalyst: 0.5 g, CO: 500 ppm, O2: 2...
Figure 10: Effect of GHSV on CO conversion over Pt(1%)-ZrO2.
Figure 11: Influence of the initial CO concentration on the CO conversion over Pt(1%)-ZrO2.