With the continuous development of modern photoelectricity, more and more scientific interests have been focused on research of the energy transfer. Simultaneously, the application of photoresist technology as an important part of micro-process has been greatly developed.In chapters two and three of this thesis, two kinds of photon systems were researched. The simulated photoresist processes were studied in the same substance and energy transfer. It was found that luminescence intensity can be enhanced to the maximum under certain conditions while in other conditions fluorescence quenching occurs. In chapter four, the mechanism and the application of two-photon initiators and polymerization of acrylate were discussed. According to the analysis of the photoresist process that got organic initiator conditions, nanometer of physical map was obtained. In chapter five, a new chromophores with benzothiadiazole as molecular focal point bearing ether triphenylamine unit at the periphery respectively (named as TZ2) was synthesized and its UV and two-photon fluorescence properties as well as the electroluminescence were comparatively investigated. |