The inorganic-organic hybrid layered material of stoichiometry [DAMS+][Ag5I6-], characterized by a strong SHG activity, has been prepared mechanochemically by room-temperature ball-milling a mixture of AgI and [DAMS+][I-], eventually followed by a moderate heating. By means of electronic absorption spectra, XRPD, and second harmonic generation (SHG) experiments we proved that the intralayer ordering of the [DAMS+] nonlinear optical chromophores into J-aggregates precedes the interlayer one, on the whole producing, by a sequential process, the "macropolarity" responsible for the strong SHG. The mechanochemical approach was shown to be of general use, as it was successfully applied to the synthesis of the analogous [DAMS+] [Cu5I6-], [DAZOP+][Ag5I6-], and [DAES+][Ag5I6-] materials.
Sequential self-organization of silver(I) layered materials with strong SHG by J aggregation and intercalation of organic nonlinear optical chromophores through mechanochemical synthesis
GALLI, SIMONA;MASCIOCCHI, NORBERTO;
2007-01-01
Abstract
The inorganic-organic hybrid layered material of stoichiometry [DAMS+][Ag5I6-], characterized by a strong SHG activity, has been prepared mechanochemically by room-temperature ball-milling a mixture of AgI and [DAMS+][I-], eventually followed by a moderate heating. By means of electronic absorption spectra, XRPD, and second harmonic generation (SHG) experiments we proved that the intralayer ordering of the [DAMS+] nonlinear optical chromophores into J-aggregates precedes the interlayer one, on the whole producing, by a sequential process, the "macropolarity" responsible for the strong SHG. The mechanochemical approach was shown to be of general use, as it was successfully applied to the synthesis of the analogous [DAMS+] [Cu5I6-], [DAZOP+][Ag5I6-], and [DAES+][Ag5I6-] materials.
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