![]() The grown crystal was subjected to thermogravimetric analysis (TGA) and Differential Scanning Calorimetry (DSC). The optical absorption and transmission studies were done by UV-Visible spectral analysis. The presence of Lithium in the material of grown crystal was detected by Atomic absorption spectroscopy (AAS). The functional groups were identified by FT-IR spectral analysis. The Energy Dispersive X-ray analysis (EDAX) gives the chemical composition of grown crystal. By adjusting the relative content range of the crosslinking and diluents, the morphologies of polymer network can be changed. The crystal structure and cell parameters of grown crystal were determined by X-ray diffraction. The effects of the morphologies of liquid crystal (LC) droplets left in polymer network on the performance of polymer dispersed liquid crystal composite films were investigated. It was found that the SHG efficiency of KDP after addition of Lithium ion is 1.33 times more than pure KDP. The enhancement in SHG efficiency after addition of ion Lithium (Li +) was observed by Kurtz Powder SHG test. Single crystal of Lithium ion doped Potassium Dihydrogen Phosphate (KDP) was grown by slow evaporation technique. The influence of lithium ion (Li +) on NLO properties of KDP crystal has been studied in the present investigation. The high quality transparent crystals up to a size 10×7×5 mm3 are obtained with in fifteen days. ![]() e borate based NLO crystals are classified into three. Since many of the metal ions possess more electro negativity which increases the non centrosymmetry, it is of interest to dope them in KDP. The single crystals were grown using slow evaporation solution growth technique. involved in the growth of borate crystals and their properties are also reviewed and presented. Different attempts have been made to dope KDP with inorganic additives, organic materials and amino acids. Potassium Dihydrogen Phosphate (KDP) and its isomorphous deuterated form are popular due to their applications in frequency converters and electro-optic modulation. ![]()
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