Silica-Based Catalyst Supports Are Inert, Are They Not?: Striking Differences in Ethanol Decomposition Reaction Originated from Meso- and Surface-Fine-Structure Evidenced by Small-Angle X-ray Scattering

6.6 nm Pt nanoparticles with narrow size distribution were anchored on mostly identical, amorphous silica supports (SBA-15, MCF-17, silica foam) and were tested in ethanol decomposition reactions at <300 °C. The reaction on the Pt/SBA-15 was ∼2 times faster (0.073 molecules·site–1·s–1) compared with Pt/MCF-17 (0.042 molecules·site–1·s–1) and Pt/SF (0.040 molecules·site–1·s–1) at 300 °C. In the case of Pt/SF, selectivity toward acetaldehyde was ∼2 times higher compared with the Pt/MCF-17 and Pt/SBA-15 catalysts. In the case of Pt/MCF-17 and Pt/SBA-15, the methane to acetaldehyde ratio was ∼4 times higher compared with the Pt/SF catalyst. The ethene selectivity was ∼1.5 times higher in the case of Pt/SBA-15 compared with Pt/MCF-17 and Pt/SF. Small-angle X-ray scattering (SAXS) studies showed striking differences in the nature of the surface of the different silica supports, which may be responsible for the activation and selectivity deviation in ethanol decomposition reactions. The SBA-15 has the most disor...