Effect of polyether diamine on gas permeation properties of organic-inorganic hybrid membranes

The quantitative incorporation and high dispersion of platinum nanoparticles into MCM-41 has been carried out by the coordination between Pt(IV) ion and APTMS-anchored MCM-41. Before and after calcination of Pt/APTMS/MCM41 samples, the Pt content in samples was evaluated from home-made photoacoustic spectrometer (PAS). The PAS bands at 350 nm and 450 nm can be assigned to d–d transition bands of Pt complexes. By increasing the concentration of Pt solution, the PAS intensity of Pt/APTMS/MCM41 was increased proportionally up to 1.0×10⁻² M, and remained constant above 1.0×10⁻² M. It can be attributed to the saturation of Pt content within Pt/APTMS/MCM41. The Pt content in the saturated Pt/APTMS/MCM41 was 8.5 wt% (the theoretical value), 9.7 wt% (measured by EDX) and 9.2 wt% (measured by ESCA), respectively. This indicates that the content of Pt precursor within MCM-41 could be controlled by the concentration of Pt precursor solution. The PAS intensity of calcined Pt/APTMS/MCM41's in H₂ flow was increased up to 1.0×10⁻² M and remained nearly constant above 1.0×10⁻² M. Therefore, we suggest that the formation of Pt complexes with APTMS-anchored MCM-41 made it possible to incorporate quantitatively Pt nanoparticles in the range of 0.5–9.2 wt% within MCM-41 channels.