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An Impact of Biofield Treatment on Spectroscopic Characterization o... |
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by: |
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Mahendra Kumar Trivedi |
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Shrikant Patil |
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Harish Shettigar |
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Ragini Singh |
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Snehasis Jana |
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The stability of any pharmaceutical compound is most |
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desired quality that determines its shelf life and |
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effectiveness.The stability can be correlated to |
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structural and bonding properties of compound and any |
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variation arise in these properties can be easily |
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determined by spectroscopic analysis. The present study |
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was aimed to evaluate the impact of biofield treatment on |
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these properties of four pharmaceutical compounds such as |
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urea, thiourea, sodium carbonate,and magnesium sulphate, |
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using spectroscopic analysis. Each compound was divided |
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into two groups, referred as control and treatment. The |
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control groups remained as untreated and treatment group |
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of each compound received Mr. Trivedi s biofield |
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treatment. Control and treated samples of each compound |
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were characterized using Fourier-Transform Infrared (FT- |
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IR) and Ultraviolet-Visible (UV-Vis) spectroscopy. FT-IR |
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spectra of biofield treated urea showed the shifting of |
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C=O stretching peak towards lower frequency (1684 1669 cm- |
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1) and N-H stretching peak towards higher frequency (3428 |
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3435 cm-1) with respect to control. A shift in frequency |
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of C-N-H bending peak was also observed in treated sample |
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as compared to control i.e. (1624 1647 cm-1). FT-IR |
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spectra of thiourea showed upstream shifting of NH2 |
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stretching peak (3363 3387 cm-1) as compared to control, |
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which may be due to decrease in N-H bond length. Also, |
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the change in frequency of N-C-S bending peak (621 660 cm- |
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1) was observed in treated thiourea that could be due to |
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some changes in bond angle after biofield treatment. |
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Similarly, treated sample of sodium carbonate showed |
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decrease in frequency of C-O bending peak (701 690 cm-1) |
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and magnesium sulphate showed increase in frequency of S- |
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O bending peak (621 647 cm-1) as compared to control, |
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which indicated that bond angle might be altered after |
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biofield treatment on respective samples. UV-Vis spectra |
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of biofield treated urea showed shift in lambda max ( |
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max) towards higher wavelength (201 220 nm) as compared |
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to control sample, whereas other compounds i.e. thiourea, |
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sodium carbonate, and magnesium sulphate showed the |
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similar max to their respective control. These findings |
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conclude that biofield treatment has significant impact |
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on spectral properties of tested pharmaceutical compounds |
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which might be due to some changes happening at atomic |
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level of compounds, and leading to affect the bonding and |
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structural properties of compounds. |
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Date Published: 2018-08-12 20:06:39 |
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Identifier: academictorrents_1afc864887a7def5445fcb26cfc8ae126fa84d33 |
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Item Size: 41485 |
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Language: English |
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Media Type: data |
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# Topics |
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Biofield treatment |
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Fourier transform infrared spectroscopy |
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Thiourea |
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Sodium carbonate |
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Magnesium sulphate |
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Ultraviolet-visible spectroscopy |
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Urea |
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# Uploaded by |
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