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    block this user Mahendra Kumar Trivedi

    Independent researcher / mahendra@trivedisrl.com

    Las Vegas Naveda
    Trivedi Global Inc.
    Trivedi Science Research Laboratory Pvt. Ltd

    Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder

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    Manganese sulfide (MnS) is known for its wide applications in solar cell, opto-electronic devices, andphotochemical industries. The present study was designed to evaluate the effect of biofield energy treatment on the atomic andphysical properties of MnS. The MnS powder sample was equally divided into two parts, referred as to be control and to betreated. The treated part was subjected to Mr. Trivedi’s biofield energy treatment. After that, both control and treated sampleswere 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 cellvolume, density, and molecular weight of the treated MnS sample as compared to the control. The crystallite size on variousplanes was significantly changed from -50.0% to 33.3% in treated sample as compared to the control. The FT-IR analysisexhibited that the absorption band attributed to Mn-S stretching vibration was reduced from (634 cm-1) to 613 cm-1 in treatedMnS as compared to the control. Besides, the ESR study revealed that g-factor was reduced by 3.3% in the treated sample ascompared to the control. Therefore, the biofield energy treated MnS could be applied for the use in solar cell andsemiconductor applications.

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    Description

    Title : Characterization of Atomic and Physical Properties of Biofield Energy Treated Manganese Sulfide Powder
    Author(s) : Mahendra Kumar Trivedi
    Abstract : Manganese sulfide (MnS) is known for its wide applications in solar cell, opto-electronic devices, andphotochemical industries. The present study was designed to evaluate the effect of biofield energy treatment on the atomic andphysical properties of MnS. The MnS powder sample was equally divided into two parts, referred as to be control and to betreated. The treated part was subjected to Mr. Trivedi’s biofield energy treatment. After that, both control and treated sampleswere 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 cellvolume, density, and molecular weight of the treated MnS sample as compared to the control. The crystallite size on variousplanes was significantly changed from -50.0% to 33.3% in treated sample as compared to the control. The FT-IR analysisexhibited that the absorption band attributed to Mn-S stretching vibration was reduced from (634 cm-1) to 613 cm-1 in treatedMnS as compared to the control. Besides, the ESR study revealed that g-factor was reduced by 3.3% in the treated sample ascompared to the control. Therefore, the biofield energy treated MnS could be applied for the use in solar cell andsemiconductor applications.
    Keywords : Manganese Sulfide,X-Ray Diffraction,Trivedi Effect,The Trivedi Effect, Mahendra Kumar Trivedi,Mahendra Trivedi,Biofield Energy Treatment,Physical Properties of MnS

    Subject : materials science
    Area : Open Access
    Language : English
    Affiliations Trivedi Global Inc.
    Trivedi Science Research Laboratory Pvt. Ltd
    Journal : American Journal of Physics and Applications
    Volume : 3
    Issue : 6
    Publisher : Science PG
    Doi : 10.11648/j.ajpa.20150306.15

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    Mahendra's Peer Evaluation activity

    Downloads 26057
    Views 162
    Following... 21
    • Alejandro Engelmann, Independent researcher, Library, Swedish University of Agricultural Sciences, Uppsala, Sweden.
    • Selma Dorrestein, Student, Master Level, University of Amsterdam.
    • Francisco Herrera, Publisher, UNIVERSITY OF GRANADA.
    • Ralf Steinmetz, Professor, university.
    • Gregory Dudek, Professor, McGill University, School of Computer Science, Montreal, Canada.
    • Umberto Straccia, Senior Research Fellow, ISTI - CNR.
    • Sorin Cotofana, Associate Professor, Deft University of Technology, Faculty of Electrical Engineeting, Mathematics, and Computer Science. Computer Engineering, Delft, The Netherlands.
    • Stefan Trausan-Matu, Professor, Computer Science Department, Politehnica University of Bucharest, Research Institute for Artificial Intelligence.
    • Jean Quisquater, Professor, UCL Crypto Group.
    • Markus Jakobsson, Principal Research Fellow, PayPal, FatSkunk, Indiana University.
    • Michael Elad, Professor, Technion - Israel institute of Technology.
    • Andrew Lumsdaine, Professor, Indiana University.
    • Mikael Nilsson, Student, Ph.D. Level, Royal Institute of Technology, Stockholm, Sweden.
    • Emilie Combet, Lecturer, MVLS, University of Glasgow, Glasgow, Centre for Population and Health Sciences, Life-course Nutrition and Health.
    • Werner Muller, Professor, Faculty of Life Science, University of Manchester, Manchester.
    • Syam Mohan, Senior Research Fellow, Pharmacology, University of Malaya, Malaysia.
    • Ramy K Aziz, Lecturer, Department of Microbiology and Immunology, Faculty of Pharmacy, Cairo University, Cairo, Egypt.
    • Paweł K. Jędrzejko, Associate Professor, Department of American and Canadian Studies of the Institute of English Cultures and Literatures, University of Silesia in Katowice, Poland.
    • Nader Ale Ebrahim, Independent researcher, Research Support Unit, Centre of Research Services, Institute of Research Management and Monitoring (IPPP), University of Malaya, Malaysia.
    • Kelli Barr, Junior professional, Department of Philosophy and Religion Studies, University of North Texas, Denton, TX, Center for the Study of Interdisicplinarity, University of North Texas, Denton, TX, Eckerd College, St. Petersburg, FL.
    • Pandelis Perakakis, Post Doctorate, Economics department, Universitet Jaume I, Castellon.

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