Dielectric Relaxation and Dipole Moment Study of Binary Mixture of 2, 3-Dichloroaniline and 2-Propoxyethanol 1, 4-Dioxane Solution Using Microwave Absorption Data

Authors

  • Bhupesh G Nemmaniwar Physics Research Laboratory, Department of Physics, Yeshwant Mahavidyalaya, Nanded
  • Pothaji Kadam

Keywords:

Dielectric relaxation, Binary mixture, 2, 3-dichloroaniline, 2-Propoxyethanol, Dipole moment, excess inverse relaxation time.

Abstract

Dielectric constant (?`) and dielectric loss (?``) of 2,3-Diachloroaniline (2,3-DCA), 2-propxyethanol (2-PE) and

References

Kadam SS, Hudge PG, Suryawanshi DB, and Kumbharkhane AC. Dielectric relaxation study of 2 and 3-chloroaniline and 2 and 3-methoxyaniline with 1,4-dioxane mixtures using time domain technique. 2013, J Mol. Liq; 177: 426-31.

Sharma GL, and Gandhi JM. Dielectric relaxation studies of non-rigid binary systems in benzene solutions at different temperatures. 1989, J Mol. Liq; 44:17-26.

Rana VA, Vyas AD, and Mehrotra SC. Dielectric relaxation study of mixtures of 1-propanol with aniline, 2-chloroaniline and 3-chloroaniline at different temperatures using time domain technique. 2003, J.Mol.Liq; 102(1-3):379-91.

Mishra CK, and Saxena MC. Dielectric relaxation time of ortho, meta, para tolualdehyde and cuminaldehyde at different temperatures in benzene. 1978, Acta. Physica. Et. Chemica; 24:351-55.

Undre P, and Khirade PW. Dielectric dispersion in 1, 2-Diaminopropane-dimethyl aminoethanol mixtures as a function of composition and temperature. 2011, Lith. J Phys; 51: 313-30.

Kalamse GM, Pande R, and Nimkar MJ. Dielectric behavior of binary mixture of Diethylene triamine with 2-Ethoxyethenol. 2005, Asain. J of Chem; 17(3): 1698-04.

Becker U, and Stockhausen M. A dielectric relaxation study of some mixtures of mono and dihydric alcohols. 1999, J Mol.Liq; 81:89-100.

Sit SK, Dutta K, Acharyya S, Pal T, Majumder, and Roy S. Double relaxation times, dipole moments, energy parameters and molecular structures of some aprotic polar molecules from relaxation phenomena. 2000, J Mole Liq; 89(1):111-26.

Scholz B, and Palauschek N. The determination of substituted aromatic amines in water and sediment samples 1988, Fresen. Z. Anal.Chem; 331:282-89.

Lo HH, Brown PI, and Rankin GO. Trichloroaniline Effect on renal fuction in Vivo and in Vitro. 1991, Toxicol Lett; 57(3):319-28.

Marengo E, Gennaro MC, Gianotti V, and Prenesti E. Optimization of separation of mono and dichloroaniline in ion interaction high performance liquid chromatography. 1999, J Chromatoger A; 863(1):1-11.

Jang S, Shin M, Lee Y, and Kim H. Measurement and correlation of (vapor + liquid) equilibria for the {2-propoxyethanol (C3E1) + n-hexane} and the {2-propoxyethanol (C3E1) + n-heptane} systems. 2009, J Chem.Thermodayanamics; 41:51-55.

Pal A, and Dass G. Excess Molar Volumes and Viscosities for Binary Liquid Mixtures of 2-Propoxyethanol and of 2-Isopropoxyethanol with Methanol, 1-Propanol, 2-Propanol, and 1-Pentanol at 298.15 K. 2000, J Chem. Eng. Data; 45(4):693-98.

Pal A, and Bhardwaj RK. Excess Molar Volumes and Viscosities for Binary Mixtures of 2-Propoxyethanol and of 2-Isopropoxyethanol with Propylamine and Dipropylamine at (298.15, 308.15, and 318.15) K. 2001, J Chem. Eng. Data; 46:933-38.

Heston (Jr) WM, Franklin AD, Hennely EL. and Smyth CP. Microwave Absorption and Molecular Structure in Liquids. V. Measurement of the Dielectric Constant and Loss of Low-loss Solutions. 1950, J Am. Chem. Soc; 72: 3443-47.

Nemmaniwar BG, Kalyankar NV, and Kadam PL. Dielectric behavior of binary mixture of 2-Chloroanile with 2-Methoxythanol and 2-Ethoxythanol. 2013, Orbital J Chem; 5(1): 1-6.

Nemmaniwar BG, Jogdand AP, and Kadam PL. Excess properties of binary mixture liquid mixture of 2-chloroanile+Ethylene glycol at 10.985 GHz microwave frequency. 2013, Chem. Sci. Trans; 2(2):677-83.

Gopala Krishna KV. A method of determining the dipole moment and relaxation time from microwave measurements. 1957, Trans Faraday Soc; 33:767-70.

Dharmalingam K, Ramachandran K, Sivagurunathan P, Undre BP, Khirade PW, and Mehrotra SC. Dielectric Relaxation of Binary mixture of Alcohols with Ethyl Methacrylate. 2009, Tamkang J of Sci. and Engg; 12(2):123-28.

Jeevanandham P, Kumar S, Periyasamy P, and Kumbharkhane AC. Dielectric Relaxation Studies of 2-Butoxyethanol with Aniline and Subsituted Aniline Using Time Domain reflectometry. 2014, Advances in Physical Chem; 2014:1-9.

Debye P. Polar molecular. The chemical Catalog Company, Inc. New York, Chap. 1. 1929, 679.

Hill NE, Vaughan WE, Price AH, and Mansel D. Dielectric Properties and molecular behavior,Vol 3, Van nostrand Reinhold Company,London, Chap. 4. 1969,271.

Vishwam T, Subramanin V, and Murty VRK. Microwave dielectric absorption studies of hydrogen bonded polar binary mixtures of isobutanol with tertiary butyl amine. 2007, Mol.Phys; 105:973-80.

Vishwam T, and Murty VRK. Microwave dielectric relaxation studies of hydrogen bonded polar binary mixture of isobutanol and aniline. 2013, J Mol.Structure; 1035:46-53.

Pande RV. Ph.D.Thesis.

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Published

2014-08-08

How to Cite

Nemmaniwar, B. G., & Kadam, P. (2014). Dielectric Relaxation and Dipole Moment Study of Binary Mixture of 2, 3-Dichloroaniline and 2-Propoxyethanol 1, 4-Dioxane Solution Using Microwave Absorption Data. International Journal of Sciences: Basic and Applied Research (IJSBAR), 17(2), 143–155. Retrieved from https://gssrr.org/index.php/JournalOfBasicAndApplied/article/view/2312

Issue

Vol. 17 No. 2 (2014)

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