【文章名】Sub-Micrometer Patterning of Amorphous- and beta-Phase in a Crosslinkable Poly(9,9-dioctylfluorene): Dual-Wavelength Lasing from a Mixed-Morphology Device
Sub-Micrometer Patterning of Amorphous- and beta-Phase in a Crosslinkable Poly(9,9-dioctylfluorene): Dual-Wavelength Lasing from a Mixed-Morphology Device
作者
Kuehne, AJC; Kaiser, M; Mackintosh, AR; Wallikewitz, BH; Hertel, D; Pethrick, RA; Meerholz, K
[摘要]:The metastable beta-phase morphology, inherent to most polyfluorene homopolymers, is of interest due to its superior optical and electrical characteristics compared to its amorphous analogue. Here, a polyfluorene with vinyl-ether-functionalized aliphatic side-chains that allow crosslinking is reported. It is demonstrated that the previously induced conformational morphology is preserved in the resulting polyfluorene network, which enables subsequent wet thin-film processing. Electron-beam lithography provides a means for sub-(optical)-wavelength patterning of the crosslinkable polyfluorene films. As a specific demonstration, optically-pumped distributed-feedback (DFB) lasers made from surface-relief gratings in amorphous and beta-phase polyfluorene are presented. By backfilling gratings of one morphology by the other, devices are demonstrated that exhibit lasing at two wavelengths with a threshold (< 1 mu J cm(-2)) at least an order of magnitude lower compared with previous data.