Advanced Functional Materials, Vol.19, No.16, 2547-2552, 2009
Materials for a Reliable Solid-State Dye Laser at the Red Spectral Edge
In the search to extend the tuning range of solid-state dye lasers (SSDLs) to the red-edge spectral region, new photosensitive materials have been designed and synthesized based on six commercial dyes (sulforhodamine B perylene red, rhodamine 640, LDS698, LDS722, and LDS730) incorporated into different linear, crosslinked, fluorinated, and sililated polymeric matrices. Under transversal pumping; at 532 nm, these materials exhibit highly efficient, stable, as well as wavelength-tunable laser action from the visible-to-NIR spectral region (575-750 nm). The lasing performance of the materials doped with perylene and xanthene dyes is, to the best of our knowledge, the highest achieved to date for these chromophores when incorporated inorganic, or hybrid matrices. Regarding the LDS derivatives, time that laser action from these dyes in solid-state media is reported. These particular characteristics have impelled the building of the first prototype SSDL that is compact, versatile, and easy to handle.