%0 Journal Article
%T An Impact of Biofield Treatment on Spectroscopic Characterization of Pharmaceutical Compounds
%A Mahendra Kumar Trivedi
%A Shrikant Patil
%A Harish Shettigar
%A Ragini Singh and Snehasis Jana
%J Modern Chemistry & Applications
%D 2015
%R 10.4172/2329-6798.1000159
%X The stability of any pharmaceutical compound is most desired quality that determines its shelf life and effectiveness.The stability can be correlated to structural and bonding properties of compound and any variation arise in these properties can be easily determined by spectroscopic analysis. The present study was aimed to evaluate the impact of biofield treatment on these properties of four pharmaceutical compounds such as urea, thiourea, sodium carbonate,and magnesium sulphate, using spectroscopic analysis. Each compound was divided into two groups, referred as control and treatment. The control groups remained as untreated and treatment group of each compound received Mr. Trivedi¡¯s biofield treatment. Control and treated samples of each compound were characterized using Fourier-Transform Infrared (FT-IR) and Ultraviolet-Visible (UV-Vis) spectroscopy. FT-IR spectra of biofield treated urea showed the shifting of C=O stretching peak towards lower frequency (1684¡ú1669 cm-1) and N-H stretching peak towards higher frequency (3428¡ú3435 cm-1) with respect to control. A shift in frequency of C-N-H bending peak was also observed in treated sample as compared to control i.e. (1624¡ú1647 cm-1). FT-IR spectra of thiourea showed upstream shifting of NH2 stretching peak (3363¡ú3387 cm-1) as compared to control, which may be due to decrease in N-H bond length. Also, the change in frequency of N-C-S bending peak (621¡ú660 cm-1) was observed in treated thiourea that could be due to some changes in bond angle after biofield treatment. Similarly, treated sample of sodium carbonate showed decrease in frequency of C-O bending peak (701¡ú690 cm-1) and magnesium sulphate showed increase in frequency of S-O bending peak (621¡ú647 cm-1) as compared to control, which indicated that bond angle might be altered after biofield treatment on respective samples. UV-Vis spectra of biofield treated urea showed shift in lambda max (¦Ëmax) towards higher wavelength (201¡ú220 nm) as compared to control sample, whereas other compounds i.e. thiourea, sodium carbonate, and magnesium sulphate showed the similar ¦Ëmax to their respective control. These findings conclude that biofield treatment has significant impact on spectral properties of tested pharmaceutical compounds which might be due to some changes happening at atomic level of compounds, and leading to affect the bonding and structural properties of compounds.
%K Urea
%K Thiourea
%K Sodium Carbonate
%K Magnesium Sulphate
%K Biofield Treatment
%K Fourier Transform Infrared Spectroscopy
%K Ultraviolet-Visible Spectroscopy
%K Mahendra Kumar Trivedi
%K Mahendra Trivedi
%K Trivedi Effect
%K The Trivedi Effect
%K Biofield
%K Biofield Energy Treatment
%K Sodium Carbonate IR Spectrum
%K IR Spectra Of Thiourea
%K Thiourea IR Spectrum
%K Spectrum Analysis Of Pharmaceuticals
%K Spectral Properties Of Pharmaceuticals
%U http://www.esciencecentral.org/journals/an-impact-of-biofield-treatment-on-spectroscopic-characterization-of-pharmaceutical-compounds-2329-6798-1000159.pdf