REAL-TIME POLING VAPOR CODEPOSITION OF DYE-DOPED 2ND-ORDER NONLINEAR-OPTICAL POLYMER THIN-FILMS

Dye-doped second-order nonlinear optical(NLO) poly(amic acid) !PAA and polyimide (PI) thin films were prepared via a newly developed real-ti me poling vapor co-deposition process. This method would plausibly ena ble many polymeric materials, including high glass transition ones, to be matrix films and many NLO-active chromophores to be desired dopant s for making numerous NLO thin films, The PAA film, after curing at 15 0 degrees C, showed a considerable improvement in thermal stability. F ourier transform infrared characterization also revealed that a 23 wt % disperse red 1 doped PI thin film exhibited reasonable second harmon ic generation (SHG) characteristics even at relatively low poling fiel ds; that is, the SHG coefficient had increased from 0.8 to 5.8 pm/V fo r a poling field increasing from 0.01 to 0.1 MV/cm.