S. Azhagiri scite author profile

The present study deals with the characterization of the polymeric materialsviz.,nylon-66 and 30% glass fibre reinforced nylon-66 (GF Nylon-66) by employing FTIR and thermal measurements. The complete vibrational band assignment made available for nylon-66 and GF nylon-66 using FTIR spectra confirm their chemical structure. FTIR spectroscopy provides detailed information on polymer structure through the characteristic vibrational energies of the various groups present in the molecule. The thermal behavior of nylon-66 and GF nylon-66 essential for proper processing and fabrication was studied from TGA and DTA thermograms. The thermal stability of the polymers was studied from TGA and the activation energy for the degradation of the polymeric materials was calculated using Murray-White plot and Coats-Redfern plot. The polymer with high activation energy is more thermally stable. GF nylon-66 is found to be more thermally stable than nylon-66. The major thermal transitions such as crystalline melting temperature (Tm) and degradation temperature (Td) of the polymers were detected from DTA curves. The melting behaviour of the polymer depends upon the specimen history and in particular upon the temperature of crystallization. The melting behaviour also depends upon the rate at which the specimen is heated. The various factors such as molar mass and degree of chain branching govern the value of Tmin different polymers.

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Molecular structure, Mulliken charge, frontier molecular orbital and first hyperpolarizability analysis on 2-nitroaniline and 4-methoxy-2-nitroaniline using density functional theory

Azhagiri

Jayakumar

Gunasekaran³

et al. 2014

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Theoretical and experimental studies of vibrational spectra and thermal analysis of 2-nitroaniline and its cation

Azhagiri¹,

Ramkumaar²,

Jayakumar

et al. 2009

J Mol Model

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The FTIR spectrum of 2-nitroaniline was recorded in the regions 4000-400 cm(-1). The optimized molecular geometry, bond orders, atomic charges, harmonic vibrational wave numbers and intensities of vibrational bands of 2-nitroaniline and its cation were calculated at DFT levels invoking two different basis sets 6-31G and 6-31+G using Gaussian 03W program. The X-ray geometry and FTIR vibrational frequencies were compared with the results of DFT calculations. The thermal stability of 2NA is studied by the thermo gravimetric analysis (TGA). Experimental degradation process of 2-nitroaniline was interpreted with the bond order analysis. The Mulliken atomic charge analysis was also made in the present study. Based on the molecular geometry and Mulliken charge analysis, intra molecular hydrogen bonding was identified.

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Crystal Growth, Optical, Thermal, Mechanical and Laser Damage Threshold Properties of Nonlinear Optical l-Methionine Inserted Potassium Pentaborate (LMKB5) Single Crystal for Optoelectronic Applications

Prabhaharan

Karnan

Manivannan

et al. 2021

Journal of Elec Materi

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S. Azhagiri

FTIR and Thermal Studies on Nylon‐66 and 30% Glass Fibre Reinforced Nylon‐66

Molecular structure, Mulliken charge, frontier molecular orbital and first hyperpolarizability analysis on 2-nitroaniline and 4-methoxy-2-nitroaniline using density functional theory

Theoretical and experimental studies of vibrational spectra and thermal analysis of 2-nitroaniline and its cation

Crystal Growth, Optical, Thermal, Mechanical and Laser Damage Threshold Properties of Nonlinear Optical l-Methionine Inserted Potassium Pentaborate (LMKB5) Single Crystal for Optoelectronic Applications

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