Crystal growth and optical characterization of organic crystals with nonlinear optical properties

Growth and characterization of organic crystal (L-arginine phosphate monohydrate - LAP - and L-lysine monohydrochloride dihydrate L-Lys. HCl) with desirable linear and nonlinear optical properties for technological application including telecommunications, optical computing, optical data storage, optical image processing, harmonic frequency generation, and others are presented. We developed a simple and cheap method to eliminate fungi and microbes that arises in solution due to characteristics of L-arginine and L-lysine aminoacids. The addition of sodium azide fungicide maintained the solutions of these compounds free of microorganisms in the growth chamber for six months. Using a accurately controlled solvent evaporation technique and slow cooling technique large crystals of LAP and L-Lys.HCI were obtained with optical quality appropriate to the development of optoelectronic devices. L-Lys.HCl crystals up to 6 cm&sup3 were growth and optically characterized for the first time. The divergence in the powder diffraction indexation of LAP crystals was eliminated by structural characterization and the X-ray diffraction peaks of the L-lysine monohydrochloride diliydrate crystals were indexed. (AU)