Open AccessGrowth, UV and IR Characterization of Tri- Glycine Potassium Sulphate [NH2CH2COOH-K2SO4] single [GPS] crystal
Author(s) -
Milind Kashinath Patel,
AUTHOR_ID,
Milind Maharu Patil,
AUTHOR_ID
Publication year - 2022
Publication title -
ymer
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.103
H-Index - 5
ISSN - 0044-0477
DOI - 10.37896/ymer21.02/28
Subject(s) - dislocation , potassium , crystal (programming language) , crystallography , conductivity , materials science , single crystal , characterization (materials science) , glycine , ion , crystal growth , reactivity (psychology) , diffusion , chemical physics , inorganic chemistry , chemistry , amino acid , nanotechnology , metallurgy , organic chemistry , biochemistry , thermodynamics , physics , medicine , alternative medicine , pathology , computer science , programming language
Studies on dislocation & reactivity in organic crystalline materials play an important role in crystal growth, plasticity, crystal strength, ionic conductivity, electric conductivity & diffusion properties. The presence of dislocation governs or modifies a number of phenomenons. Etching behavior helps to understand surface characteristics & direction bonding. Studies on dislocations provide the information of ferroelectrics for the formation of domains. The interaction between domains and dislocation is not fully understood in organic ferroelectrics. Keeping this in view, crystalline materials were tried starting with amino acid having zwitter ions characteristics. In the present article Tri- Glycine Potassium Sulphate [NH2CH2COOH-K2SO4] single [GPS] crystal has been used for the study