A Parametric Study of Acoustical Properties of Salicylamide Drug at Different Temperature

Authors

  • Sanjay P Ramteke  Department of Physics, S. P. College, Chandrapur, Maharashtra, India

DOI:

https://doi.org/10.32628/IJSRST.RAMAN2181

Keywords:

Ultrasonic velocity, Density and Acoustical parameters, Salicylamide drug, Alcohol

Abstract

This research paper is to pin out the various molecular interactions of molecules in the alcoholic salicylamide drug at the different temperature. Evaluations of molecular interactions of alcoholic salicylamide drug at different temperature have been investigated under ultrasonic technique at 2MHz. Ultrasonic data of drug solutions has been estimated at various desired thermo-acoustical parameters. A significant existence of solute-solvent and solute-solute interactions present in the system. Hence it is evident that the ultrasonic velocity measurement in the given medium serves as a careful probe in characterizing the physico-chemical properties of the medium This research paper has said the various types of possible molecular interaction in the drug solution. This investigation has been thoroughly analyzed and eventually interpreted at the possible molecular interactions such as structure making and structure breaking effect and also solute-solvent, ionic interaction, H-bonding effect in the alcoholic salicylamide drug solution. The results obtained from these studies can thus be helpful for pharmacological application of drugs.

References

  1. Knights K, Bryant B (2002). Pharmacology for Health Professionals. Amsterdam: Elsevier. ISBN 0-7295-3664-5.
  2. Chilowski C, Langevin P, inventors. Production of submarine signals and the location of submarine objects 1923.
  3. Flannigan DJ, Suslick KS. Plasma formation and temperature measurement during single-bubble cavitation Nature 2005 Mar 3;434(7029):52-55.
  4. Skauen DM. Some pharmaceutical applications of ultrasonics J Pharm Sci 1967 Nov;56(11):1373-1385.
  5. Shirsath SR, Sonawane SH, Gogate PR. Intensification of extraction of natural products using ultrasonic irradiations:A review of current status. Chemical Engineering and Processing: Process Intensification 2012 /3;53(0):10-23.
  6. Higgins DM, Skauen DM. Influence of power on quality of emulsions prepared by ultrasound J Pharm Sci 1972 Oct;61(10):1567-1570.
  7. Mason TJ. Ultrasound in synthetic organic chemistry. Chem Soc Rev 1997;26(6):443-451.
  8. Shah RB, Zidan AS, Funck T, Tawakkul MA, Nguyenpho A, Khan MA. Quality by design: characterization of self-nano-emulsified drug delivery systems (SNEDDs) using ultrasonic resonator technology Int J Pharm 2007 Aug 16;341(1-2):189-194.
  9. Skrabalak SE, Suslick KS. Porous MoS2 synthesized by ultrasonic spray pyrolysis J Am Chem Soc 2005 Jul 20;127(28):9990-9991.
  10. Hill CR, Bamber JC. Methodology for clinical investigation. Physical Principles of Medical Ultrasonics, Second Edition 2004:255-302.
  11. Essentials of Pharmacology, Surender Singh, General Pharmacology (Academa publishers), 1st edition, 2004.
  12. K.D.Tripathi, Essentials of Medical Pharmacology, 4th Edn.,Jaypee Brothers Medical Pub.New Delhi,(1999).
  13. A Kar, Medicinal Chemistry (Wiley Eastern Ltd.), 1993.
  14. S. Nagar, H. Singh, J. Med Chem.;,Vol.16, pp.178-180, 2007.
  15. Kannappan A.N. and Rajendran V., Ind.J. Pure & Appl. Phys. 29, 451.1991.
  16. Kannappan A.N. and Rajendran V., Ind.J. Pure & Appl. Phys., 30, 240.1992.
  17. Manoj Ku. Praharaj,Abhiram Satapathy and Prativarani Mishra, International Journal of
  18. Chemical and Pharmaceutical Sciences Vol.3 (3),pp.6-14,2012.
  19. S.Jain, D. Bhambi, G.L. Talesara, Ind. J. Pharm. Sci.,Vol.69(1), pp.28-32. 2007.
  20. M. Garcia, V. Morgante, M. Perez, P. Noe, Indian J Chem; Vol.11(5), pp.589,2008.
  21. Syal, V.K., S. chauhan and P. Sharma, J. of Electrochem Soc. India 1(53),2004.
  22. Saneel K. Thakur and Shivani Chauhan J. Chem. Pharm. Res. 3(2):657-664,2011.
  23. Weast, R.C CRC Hanbook of Chemistry and Physics, 51st.Edn.(CRC Press, Cleaveland),C-405,1970.
  24. Wankhede, D.S., Lande M.K and Arbad B.R. Jof Chem Engg Data,50:260,2005.

International Journal of Scientific Research in Science and Technology

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Published

2021-02-01

Issue

Volume 8, Issue 1, January-February-2021

Section

Research Articles

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How to Cite

[1]
Sanjay P Ramteke "A Parametric Study of Acoustical Properties of Salicylamide Drug at Different Temperature" International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011,Volume 8, Issue 1, pp.228-232, January-February-2021. Available at doi : https://doi.org/10.32628/IJSRST.RAMAN2181