Investigation on single crystal by tartaric acid–barium chloride: growth and characterization of novel NLO materials

The progress of single crystal followed by C 4 H 6 O 6 (tartaric acid) and BaCl 2 (barium chloride) (TABC; third-order nonlinear optics semi-organic) was synthesized with slow evaporation method using distilled water at room temperature. TABC single crystal was introduced into various characterizati...

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Veröffentlicht in:	Bulletin of materials science 2020-12, Vol.43 (1), p.202, Article 202
Hauptverfasser:	Shanmugan, S, Saravanan, N, Chithambaram, V, Deepanraj, B, Palani, Geetha
Format:	Artikel
Sprache:	eng
Schlagworte:	Acids Barium Barium chloride Chemistry and Materials Science Chloride Diamond pyramid hardness Distilled water Electrons Energy Engineering Fourier transforms Functional groups Lasers Materials Science Morphology Nonlinear optics Optics Parameter identification Potassium Radiation Room temperature Single crystals Spectrum analysis Stability analysis Tartaric acid Temperature Thermal stability
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creator	Shanmugan, S Saravanan, N Chithambaram, V Deepanraj, B Palani, Geetha
description	The progress of single crystal followed by C 4 H 6 O 6 (tartaric acid) and BaCl 2 (barium chloride) (TABC; third-order nonlinear optics semi-organic) was synthesized with slow evaporation method using distilled water at room temperature. TABC single crystal was introduced into various characterizations like X-ray diffraction to determine inter atomic cell parameter values. The samples are crystalline structure of monoclinic, which have space group of P 2 . The functional groups of the current material are identified using FT-IR spectrum. Optical parameters like transparency, energy bandgap and Urbach energy have been determined using UV–vis–NIR spectrum. The thermal stability of the material was investigated by differential scanning calorimeter analysis. The mechanical property was studied using Vickers microhardness test. The surface morphology of the material was determined by scanning electron microscope technique. The change in dielectric behaviour of TABC with respect to the function of frequency at various temperatures has been keenly absorbed and discussed. The third-order nonlinear optical parameters were measured using Z-scan analyses.
doi_str_mv	10.1007/s12034-020-02176-6
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subjects	Acids Barium Barium chloride Chemistry and Materials Science Chloride Diamond pyramid hardness Distilled water Electrons Energy Engineering Fourier transforms Functional groups Lasers Materials Science Morphology Nonlinear optics Optics Parameter identification Potassium Radiation Room temperature Single crystals Spectrum analysis Stability analysis Tartaric acid Temperature Thermal stability
title	Investigation on single crystal by tartaric acid–barium chloride: growth and characterization of novel NLO materials
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