Strong enhancement of optical absorbance from ionic self-assembled multilayer thin films of nanocluster Pt and polymer dye

The observation of unusually enhanced optical absorbance spectra of ionic s elf assembled multilayer (ISAM) thin films composed of alternating layers o f Pt nanoclusters (< 1 nm dimension) and polymer dye is reported. The first bilayer absorbance is found to be considerably larger than that of several succeeding bilayers even though there is no difference in composition for each bilayer. A layer-by-layer-dependent redshift in maximum wavelength pos ition due to the strong coupling of metals and polymer molecules is observe d. The saturation absorption is obtained for the first time when the requir ed thickness of the ISAM film is deposited. The large and unusual enhanceme nt effects are attributed to both the charge-transfer mechanism and very la rge local fields and collective phenomena near the surface of the small met al clusters/electrolytes and at the interfaces between the cluster/polymer multilayers. (C) 1999 American Institute of Physics. [S0021-8979(99)00601- 5].