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Author Trivedi, Mahendra Kumar; Nayak, Gopal; Patil, Shrikant; Mishra, Rakesh; Tallapragada, Rama Mohan url  doi
openurl 
  Title Impact of Biofield Treatment on Chemical and Thermal Properties of Cellulose and Cellulose Acetate Type Journal Article
  Year 2015 Publication Bioengineering & Biomedical Science Abbreviated Journal  
  Volume 5 Issue 3 Pages  
  Keywords Biofield treatment; Cellulose; Cellulose acetate; XRD; DSC; TGA; CHNSO  
  Abstract Cellulose being an excellent biopolymer has cemented its place firmly in many industries as a coating material, textile,composites, and biomaterial applications. In the present study, we have investigated the effect of biofield treatment onphysicochemical properties of cellulose and cellulose acetate. The cellulose and cellulose acetate were exposed tobiofield and further the chemical and thermal properties were investigated. X-ray diffraction study asserted that thebiofield treatment did affect the crystalline nature of cellulose. The percentage of crystallite size was found increasedsignificantly in treated cellulose by 159.83%, as compared to control sample. This showed that biofield treatment waschanging the crystalline nature of treated cellulose. However treated cellulose acetate showed a reduction in crystallitesize (-17.38%) as compared to control sample. Differential Scanning Calorimetry (DSC) of treated cellulose showed noimprovement in melting temperature as compared to control sample. Contrarily cellulose acetate showed significantimprovement in melting temperature peak at 351.91ºC as compared to control (344ºC) polymer. Moreover percentagechange in latent heat of fusion (∆H) was calculated from the DSC thermogram of both treated and control polymers.A significant increase in percentage ∆H of both treated cellulose (59.09%) and cellulose acetate (105.79%) polymersindicated that biofield treatment enhanced the thermal stability of the treated polymers. CHNSO analysis revealeda significant change in percentage hydrogen and oxygen of treated cellulose (%H-17.77, %O-16.89) and celluloseacetate (%H-5.67, %O-13.41). Though minimal change was observed in carbon percentage of both treated cellulose(0.29%) and cellulose acetate (0.39%) polymers as compared to their respective control samples. Thermo gravimetricanalysis and Differential thermo gravimetric (TGA-DTG) analysis of treated cellulose acetate (353ºC) showed increasedmaximum thermal decomposition temperature as compared to control polymer (351ºC). This showed the higher thermalstability of the treated cellulose acetate polymer; although the maximum thermal decomposition temperature of treatedcellulose (248ºC) was decreased as compared to control cellulose (321ºC). These outcomes confirmed that biofieldtreatment has changed the physicochemical properties of the cellulose polymers.  
  Address  
  Corporate Author Thesis  
  Publisher OMICS Publishing Group Place of Publication United State Editor  
  Language English Summary Language English Original Title Impact of Biofield Treatment on Chemical and Thermal Properties of Cellulose and Cellulose Acetate  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2155-9538 ISBN Medium  
  Area Pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42686  
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Author Trivedi, Mahendra Kumar; Tallapragada, Rama Mohan; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Mishra, Rakesh Kumar; Jana, Snehasis url  doi
openurl 
  Title Bio-field Treatment: A Potential Strategy for Modification of Physical and Thermal Properties of Gluten Hydrolysate and Ipomoea Macroelements Type Journal Article
  Year 2015 Publication Nutrition and Food Sciences Abbreviated Journal  
  Volume 5 Issue 5 Pages  
  Keywords Gluten hydrolysate; Ipomoea macroelements; Biofield treatment; Particle size; Surface area; XRD; DSC; TGA  
  Abstract The objective of present study was to study the effect of biofield treatment on physical and thermal properties of gluten hydrolysate (GH) and ipomoea macroelements (IM). The study was performed in two groups (control and treated). The control group remained as untreated, and biofield treatment was given to treated group. The control and treated GH and IM were characterized by particle size analysis, surface area analysis, X-ray diffraction (XRD), Differential scanning calorimetry (DSC), and Thermogravimetric analysis (TGA). Particle size results of treated GH showed that d50 (average particle size) was decreased by 3.15% and d99 (size exhibited by 99% of powder particles) by 18.40% as compared to control GH sample. The treated IM also showed substantial reduction in average particle size d50 by 4.70% and d99 by 44.40% as compared to control sample. BET analysis showed significant increase in surface area of treated GH by 374.40 % as compared to control sample. However, the treated IM showed reduction in surface area by 14.30% as compared to control sample. XRD data suggested that both control and treated GH samples were amorphous in nature. Contrarily, the treated IM sample showed intense crystalline nature; though minimal decrease was observed in crystallinity as compared to control. DSC data showed increase in melting temperature of the treated GH as compared to control which can be correlated to alteration in kinetic energy of sample. Additionally, the DSC of treated IM also showed increase in melting temperature as compared to control IM. A significant increase in latent heat of fusion (ΔH) was observed in treated GH by 302.55% with respect to control. Similarly, the treated IM showed 24.87% increase in latent heat of fusion as compared to control. TGA data showed higher thermal decomposition temperature (Tmax) of treated GH as compared to control. However, treated IM showed that Tmax was decreased as compared to control sample. These results suggested that biofield treatment has substantially changed the physical and thermal properties of the treated organic products (GH and IM).  
  Address  
  Corporate Author Thesis  
  Publisher OMICS Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Biofield Treatment: A Potential Strategy for Modification of Physical and Thermal Properties of Gluten Hydrolysate and Ipomoea Macroelements  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2155-9600 ISBN Medium  
  Area Pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42687  
Permanent link to this record
 

 
Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Bairwa, Khemraj; Jana, Snehasis url  doi
openurl 
  Title Spectroscopic Characterization of Disulfiram and Nicotinic Acid after Biofield Treatment Type Journal Article
  Year 2015 Publication Analytical & Bioanalytical Techniques Abbreviated Journal  
  Volume 6 Issue 5 Pages  
  Keywords Disulfiram; Nicotinic acid; Biofield treatment; Fourier transform infrared spectroscopy; Ultraviolet spectroscopy  
  Abstract Disulfiram is being used clinically as an aid in chronic alcoholism, while nicotinic acid is one of a B-complex vitamin that has cholesterol lowering activity. The aim of present study was to investigate the impact of biofield treatment on spectral properties of disulfiram and nicotinic acid. The study was performed in two groups i.e., control and treatment of each drug. The treatment groups were received Mr. Trivedi’s biofield treatment. Subsequently, spectral properties of control and treated groups of both drugs were studied using Fourier transform infrared (FT-IR) and Ultraviolet-Visible (UV-Vis) spectroscopic techniques. FT-IR spectrum of biofield treated disulfiram showed the shifting in wavenumber of C-H stretching from 1496 to 1506 cm-1 and C-N stretching from 1062 to 1056 cm-1. The intensity of S-S dihedral bending peaks (665 and 553 cm-1) was also increased in biofield treated disulfiram sample, as compared to control. FT-IR spectra of biofield treated nicotinic acid showed the shifting in wavenumber of C-H stretching from 3071 to 3081 cm-1 and 2808 to 2818 cm-1. Likewise, C=C stretching peak was shifted to higher frequency region from 1696 cm-1 to 1703 cm-1 and C-O (COO-) stretching peak was shifted to lower frequency region from 1186 to 1180 cm-1 in treated nicotinic acid.

UV spectrum of control and biofield treated disulfiram showed similar pattern of UV spectra. Whereas, the UV spectrum of biofield treated nicotinic acid exhibited the shifting of absorption maxima (λmax) with respect of control i.e., from 268.4 to 262.0 nm, 262.5 to 256.4, 257.5 to 245.6, and 212.0 to 222.4 nm.

Over all, the FT-IR and UV spectroscopy results suggest an impact of biofield treatment on the force constant, bond strength, and dipole moments of treated drugs such as disulfiram and nicotinic acid that could led to change in their chemical stability as compared to control.
 
  Address  
  Corporate Author Thesis  
  Publisher OMICS Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Spectroscopic Characterization of Disulfiram and Nicotinic Acid after Biofield Treatment  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2155-9872 ISBN Medium  
  Area Pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42689  
Permanent link to this record
 

 
Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Mondal, Sambhu Charan; Jana, Snehasis url  doi
openurl 
  Title Morphological Characterization, Quality, Yield and DNA Fingerprinting of Biofield Energy Treated Alphonso Mango (Mangifera indica L.) Type Journal Article
  Year 2015 Publication Journal of Food and Nutrition Sciences Abbreviated Journal  
  Volume 3 Issue 6 Pages 245-250  
  Keywords Alphonso Mango; Mangifera indica L.; Spongy Tissue Disorder; RAPD; Biofield Energy Treatment; Yield  
  Abstract Alphonso is the most delicious variety of mango (Mangifera indica L.) known for its excellent texture, taste, and richness with vitamins and minerals. The present study was attempted to evaluate the impact of Mr. Trivedi’s biofield energy treatment on morphological characteristics, quality, yield and molecular assessment of mango. A plot of 16 acres lands used for this study with already grown mango trees. This plot was divided into two parts. One part was considered as control, while another part was subjected to Mr. Trivedi’s biofield energy treatment without physically touching and referred as treated. The treated mango trees showed new straight leaves, without any distortion and infection, whereas the control trees showed very few, distorted, infected, and curly leaves. Moreover, the flowering pattern of control trees did not alter; it was on average 8 to 10 inches with more male flowers. However, the flowering pattern of treated trees was completely transformed into compact one being 4 to 5 inches in length and having more female flowers. Additionally, the weight of matured ripened mango was found on an average 275 gm, medium sized with 50% lesser pulp in the control fruits, while the fruits of biofield energy treated trees showed on average weight of 400 gm, large sized and having 75% higher pulp as compared to the control. Apart from morphology, the quality and nutritional components of mango fruits such as acidity content was increased by 65.63% in the treated sample. Vitamin C content in the treated Alphonso mango pulp was 43.75% higher than the pulp obtained from the control mango farm. The spongy tissue content in pulp of the matured ripened mangoes was decreased by 100% for two consecutive years as compared to the control. Moreover, the yield of flowers and fruits in the treated trees were increased about 95.45 and 47.37%, respectively as compared to the control. Besides, the DNA fingerprinting data using RAPD revealed that the treated sample did not show any true polymorphism as compared to the control. The overall results envisaged that the biofield energy treatment on the mango trees showed a significant improvement in the morphology, quality and overall productivity along with 100% reduction in the spongy tissue disorder. In conclusion, the biofield energy treatment could be used as an alternative way to increase the production of quality mangoes.  
  Address  
  Corporate Author Thesis  
  Publisher Science Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Morphological Characterization, Quality, Yield and DNA Fingerprinting of Biofield Energy Treated Alphonso Mango (Mangifera indica L.)  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2330-7285 ISBN Medium  
  Area Agriculture Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42692  
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Author Trivedi, Mahendra Kumar; Tallapragada, Rama Mohan; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Mishra, Rakesh Kumar; Jana, Snehasis url  doi
openurl 
  Title Characterization of Physical and Thermal Properties of Biofield Treated Neopentyl Glycol Type Journal Article
  Year 2015 Publication Pharmaceutical Analytical Chemistry: Open Access Abbreviated Journal  
  Volume 1 Issue 1 Pages  
  Keywords Neopentyl glycol; X-ray diffraction; Differential scanning calorimetry; Thermogravimetric analysis; Fourier transform infrared spectroscopy  
  Abstract Neopentyl glycol (NPG) has been extensively used as solid-solid phase change materials (PCMs) for thermal energy storage applications. The objective of the present study was to evaluate the impact of biofield treatment on physical, spectral and thermal properties of NPG. The study was performed in two groups (control and treated). The control group remained as untreated, and treatment group was subjected to Mr. Trivedi’s biofield treatment. The control and treated NPG were characterized by X-ray diffraction (XRD), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and Fourier transform infrared (FT-IR) spectroscopy. XRD study revealed the decrease in crystallite size of treated NPG by 21.97% as compared to control sample. DSC studies showed slight change in melting temperature of treated NPG as compared to control sample. TGA analysis showed 55.66% weight loss in control NPG however, the treated sample showed reduction in weight loss (44.81%). Additionally, the maximum thermal decomposition temperature (Tmax) of treated NPG (160.40°C) was minimally increased with respect to control sample (159.72°C). This can be inferred as good thermal stability of biofield treated NPG with respect to control. FT-IR spectroscopy showed no structural changes in treated NPG with respect to control sample. The overall results showed that biofield treatment has affected the physical and thermal properties of treated NPG. Moreover, good thermal stability of treated NPG showed that it could be used as phase change materials for thermal energy storage applications.  
  Address  
  Corporate Author Thesis  
  Publisher OMICS Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Characterization of Physical and Thermal Properties of Biofield Treated Neopentyl Glycol  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2471-2698 ISBN Medium  
  Area Pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42691  
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Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Saikia, Gunin; Jana, Snehasis url  doi
openurl 
  Title Quantitative Determination of Isotopic Abundance Ratio of 13C, 2H, and 18O in Biofield Energy Treated Ortho and Meta Toluic Acid Isomers Type Journal Article
  Year 2015 Publication American Journal of Applied Chemistry Abbreviated Journal  
  Volume 3 Issue 6 Pages 217-223  
  Keywords Biofield Energy Treatment; o-Toluic Acid; m-Toluic Acid; Gas Chromatography-Mass Spectrometry  
  Abstract O-Toluic acid (OTA) and m-toluic acid (MTA) are two isomers of toluic acid that act as an important organic intermediates, mostly used in medicines and pesticides. The aim of the study was to evaluate the impact of biofield energy treatment on isotopic abundance ratios of 2H/1H, 13C/12C, (PM+1)/PM and 18O/16O, (PM+2)/PM, in toluic acid isomers using gas chromatography-mass spectrometry (GC-MS). The OTA and MTA samples were divided into two parts: control and treated. The control sample remained as untreated, while the treated sample was further divided into four groups as T1, T2, T3, and T4. The treated group was subjected to biofield energy treatment. The GC-MS spectra of both the isomers showed five m/z peaks due to the molecular ion peak and fragmented peaks of toluic acid derivatives. The isotopic abundance ratio of (PM+1)/PM and (PM+2)/PM were calculated for both the isomers and found significant alteration in the treated isomers. The isotopic abundance ratio of (PM+1)/PM in treated samples of OTA was decreased and then slightly increased upto 2.37% in T2, where the (PM+2)/PM in treated OTA, significantly decreased by 55.3% in T3 sample. Similarly, in case of MTA, the isotopic abundance ratio of (PM+1)/PM in the treated sample showed a slight increase the (PM+2)/PM was decreased by 11.95% in T2 as compared to their respective control. GC-MS data suggests that the biofield energy treatment on toluic acid isomers had significantly altered the isotopic abundance of 2H, 13C, and 18O in OTA and MTA as compared to the control.  
  Address  
  Corporate Author Thesis  
  Publisher Science Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Quantitative Determination of Isotopic Abundance Ratio of 13C, 2H, and 18O in Biofield Energy Treated Ortho and Meta Toluic Acid Isomers  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2330-8753 ISBN Medium  
  Area pharmaceutical Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42693  
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Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Gangwar, Mayank; Jana, Snehasis url  doi
openurl 
  Title Evaluation of Vegetative Growth Parameters in Biofield Treated Bottle Gourd (Lagenaria siceraria) and Okra (Abelmoschus esculentus) Type Journal Article
  Year 2015 Publication International Journal of Nutrition and Food Sciences Abbreviated Journal  
  Volume 4 Issue 6 Pages 688-694  
  Keywords Lagenaria siceraria; Abelmoschus esculentus; Biofield Energy; Glutathione; DNA Fingerprinting; Polymorphism  
  Abstract The objective of the study was to assess the growth contributing characters of biofield treated bottlegourd(Lagenaria siceraria) and okra (Abelmoschus esculentus) seeds. The seeds of both crops were divided intotwo groups, one waskept aside and denoted as untreated, while the other group was subjected biofield energy treatment. The variabilities in growth contributing parameters were studied and compared with their control. Further the level of glutathione(GSH) in okra leaves,along with DNA fingerprinting in bottle gourd wereanalyzed using RAPD method. After germination, theplants of bottle gourdwere reported to be strong and erect with better canopy as compared with the control. The vegetative growth of okra plants afterbiofield energy treatment was found to be stout with small canopy, strong steam, and more fruits per nodes, that contributed highyield as compared with the control. However, endogenous level of GSH in the leaves of okra was increased by 47.65% ascompared to the untreated group, which may suggestan improved immunity of okra crops. Besides, the DNA fingerprinting data,showed polymorphism (42%) between treated and untreated samples of bottle gourd. The overall results suggest that the biofieldenergy treatment on bottle gourd and okra seeds, results an improved overall growth of plant and yield, which may enhanceflowering and fruiting per plant. Study results conclude that the biofield energy treatment could be an alternate method toimprove the crop yield in agricultural science.  
  Address  
  Corporate Author Thesis  
  Publisher Science PG Place of Publication United States Editor  
  Language English Summary Language English Original Title Evaluation of Vegetative Growth Parameters in Biofield Treated Bottle Gourd (Lagenaria siceraria) and Okra (Abelmoschus esculentus)  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2327-2716 ISBN Medium  
  Area Microbiology Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42694  
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Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Singh, Ragini; Jana, Snehasis url  doi
openurl 
  Title Physicochemical Characterization of Biofield Energy Treated Hi VegTM Acid Hydrolysate Type Journal Article
  Year 2015 Publication International Journal of Nutrition and Food Sciences Abbreviated Journal  
  Volume 5 Issue 1 Pages 1-8  
  Keywords Protein Hydrolysate; Acid Hydrolysis; Hi VegTM Acid Hydrolysate; Hydrolysed Vegetable Protein  
  Abstract The hydrolysed vegetable proteins are acidic or enzymatic hydrolytic product of proteins derived from various sources such as milk, meat or vegetables. The current study was designed to evaluate the impact of biofield energy treatment on the various physicochemical and spectra properties of Hi vegTM acid hydrolysate i.e. a hydrolysed vegetable protein. The Hi vegTM acid hydrolysate sample was divided into two parts that served as control and treated sample. The treated sample was subjected to the biofield energy treatment and its properties were analysed using particle size analyser, X-ray diffraction (XRD), surface area analyser, UV-visible and infrared (FT-IR) spectroscopy, and thermogravimetric analysis. The results of various parameters were compared with the control (untreated) part. The XRD data showed the decrease in crystallite size of treated sample from 110.27 nm (control) to 79.26 nm. The particle size was also reduced in treated sample as 162.13 μm as compared to the control sample (168.27 μm). Moreover, the surface area analysis revealed the 63.79% increase in the surface area of the biofield treated sample as compared to the control. The UV-Vis spectra of both samples i.e. control and treated showed the absorbance at same wavelength. However, the FT-IR spectroscopy revealed the shifting in peaks corresponding to N-H, C-H, C=O, C-N, and C-S functional groups in the treated sample with respect to the control. The thermal analysis also revealed the alteration in degradation pattern along with increase in onset temperature of degradation and maximum degradation temperature in the treated sample as compared to the control. The overall data showed the impact of biofield energy treatment on the physicochemical and spectroscopic properties of the treated sample of Hi vegTM acid hydrolysate. The biofield treated sample might show the improved solubility, wettability and thermal stability profile as compared to the control sample.  
  Address  
  Corporate Author Thesis  
  Publisher Science Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Physicochemical Characterization of Biofield Energy Treated Hi VegTM Acid Hydrolysate  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2327-2694 ISBN Medium  
  Area Pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42695  
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Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Mishra, Rakesh; Jana, Snehasis url  doi
openurl 
  Title Comparative Physicochemical Evaluation of Biofield Treated Phosphate Buffer Saline and Hanks Balanced Salt Medium Type Journal Article
  Year 2015 Publication American Journal of BioScience Abbreviated Journal  
  Volume 3 Issue 6 Pages 267-277  
  Keywords Phosphate Buffer Saline; Hank Buffer Salt; Biofield Energy Treatment; X-ray Diffraction; Thermal Analysis  
  Abstract Phosphate buffer saline (PBS) has numerous biological and pharmaceutical applications. Hank buffer salt (HBS) has been used as a medium for tissue culture applications. This research study was aimed to investigate the influence of Mr. Trivedi’s biofield energy treatment on physicochemical properties of the PBS and HBS. The study was executed in two group’s i.e. control and treated. The control group was kept aside as control and treated group had received the biofield energy treatment. The control and treated samples were further characterized by X-ray diffraction (XRD), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and Fourier transform infrared (FT-IR) spectroscopy. The XRD analysis indicated the increase in crystallite size by 5.20% in treated PBS as compared to the control. Similarly, the treated HBS also showed increase in crystallite size by 3.20% with respect to the control. Additionally, the treated PBS showed an increase in Bragg’s angle (2θ) as compared to the control sample. However, a decrease in Bragg’s angle of XRD peaks of the treated sample was noticed in the treated HBS. The DSC analysis of the control PBS showed melting temperature at 224.84°C; however melting temperature was not observed in the treated sample. However, DSC analysis of the treated HBS showed an increase in melting temperature (152.83°C) in comparison with the control (150.60°C). Additionally, the latent heat of fusion of the treated HBS was increased substantially by 108.83% as compared to the control. The TGA thermogram of the treated PBS showed an increase in onset of thermal degradation (212°C) as compared to the control (199°C). Whereas, the treated HBS showed less weight loss comparing with the control sample. This indicated the increase in thermal stability of the both the treated PBS and HBS samples. The FT-IR spectroscopic analysis of treated PBS showed alterations in the frequency of the functional groups such as O-H, C-H, P=O, O=P-OH, and P-OH as compared to the control. Additionally, the FT-IR spectrum of the treated HBS showed increase in frequency of calcium chloride phase (1444→1448 cm-1) as compared to the control sample. Altogether, it was observed that biofield energy treatment had caused physical, thermal and spectral changes in the treated samples as compared to the control. It is assumed that biofield energy treated PBS and HBS could be a good prospect for biological and tissue culture applications.  
  Address  
  Corporate Author Thesis  
  Publisher Science Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Comparative Physicochemical Evaluation of Biofield Treated Phosphate Buffer Saline and Hanks Balanced Salt Medium  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2330-0167 ISBN Medium  
  Area pharmaceuticals Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42696  
Permanent link to this record
 

 
Author Trivedi, Mahendra Kumar; Branton, Alice; Trivedi, Dahryn; Nayak, Gopal; Tallapragada, Rama Mohan; Latiyal, Omprakash; Jana, Snehasis url  doi
openurl 
  Title Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder Type Journal Article
  Year 2015 Publication American Journal of Physics and Applications Abbreviated Journal  
  Volume 3 Issue 6 Pages 215-220  
  Keywords Manganese Sulfide; Biofield Energy Treatment; X-Ray Diffraction; Fourier transform Infrared; Electron Spin Resonance  
  Abstract Manganese sulfide (MnS) is known for its wide applications in solar cell, opto-electronic devices, and photochemical industries. The present study was designed to evaluate the effect of biofield energy treatment on the atomic and physical properties of MnS. The MnS powder sample was equally divided into two parts, referred as to be control and to be treated. The treated part was subjected to Mr. Trivedi’s biofield energy treatment. After that, both control and treated samples were investigated using X-ray diffraction (XRD), Fourier transform infrared (FT-IR) spectroscopy, and electron spin resonance (ESR) spectroscopy. The XRD data revealed that the biofield energy treatment has altered the lattice parameter, unit cell volume, density, and molecular weight of the treated MnS sample as compared to the control. The crystallite size on various planes was significantly changed from -50.0% to 33.3% in treated sample as compared to the control. The FT-IR analysis exhibited that the absorption band attributed to Mn-S stretching vibration was reduced from (634 cm-1) to 613 cm-1 in treated MnS as compared to the control. Besides, the ESR study revealed that g-factor was reduced by 3.3% in the treated sample as compared to the control. Therefore, the biofield energy treated MnS could be applied for the use in solar cell and semiconductor applications.  
  Address  
  Corporate Author Thesis  
  Publisher Science Publishing Group Place of Publication United States Editor  
  Language English Summary Language English Original Title Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition (up)  
  ISSN 2330-4286 ISBN Medium  
  Area Materials Science Expedition Conference  
  Notes Approved yes  
  Call Number Trivedi Global Inc. @ mahendra @ Serial 42697  
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