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Naji, M. |
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Motta, Antonella |
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Aletan, Dirar |
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Mohamed, Tarek |
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Ertürk, Emre |
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Taccardi, Nicola |
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Kononenko, Denys |
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Petrov, R. H. | Madrid |
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Alshaaer, Mazen | Brussels |
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Bih, L. |
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Casati, R. |
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Muller, Hermance |
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Kočí, Jan | Prague |
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Šuljagić, Marija |
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Kalteremidou, Kalliopi-Artemi | Brussels |
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Azam, Siraj |
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Ospanova, Alyiya |
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Blanpain, Bart |
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Ali, M. A. |
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Popa, V. |
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Rančić, M. |
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Ollier, Nadège |
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Azevedo, Nuno Monteiro |
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Landes, Michael |
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Rignanese, Gian-Marco |
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Trivedi, Mahendra Kumar
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (61/61 displayed)
- 2021Evaluation of Physicochemical, Spectral and Thermal Properties of Energy of Consciousness Healing Treated Iron Sulphate
- 2019Evaluation of Physicochemical and Thermal Properties of the Consciousness Energy Healing Treated Tellurium
- 2019Evaluation of the physicochemical, thermal and behavioural properties of consciousness energy healing treated iron (II) sulphate
- 2019Characterization of the biofield energy treated aluminium using PSA, PXRD, and TGA/DTG analytical techniques
- 2018Evaluation of the Physicochemical and Thermal Properties of Antimony: Influence of the Energy of Consciousness Healing Treatment
- 2018Assessment of the Influence of Biofield Energy Treatment on the Physicochemical and Thermal Properties of Lead Using PXRD, PSA, and DSC
- 2018Evaluation of Biofield Treatment on Physical and Structural Properties of Bronze Powder
- 2018Evaluation of the Physicochemical and Thermal Properties of Consciousness Energy Healing Treated Lead Using PXRD, PSA, and DSC Analysiscitations
- 2018Evaluation of the Physicochemical and Thermal Properties of Chromium Trioxide (CrO3): Impact of Consciousness Energy Healing Treatmentcitations
- 2018Spectroscopic and Calorimetric Evaluation of the Consciousness Energy Healing Treated Lead
- 2016Characterization of Physical, Thermal and Spectroscopic Properties of Biofield Treated Ortho-Toluic Acid
- 2015Physicochemical Characterization of Biofield Energy Treated Hi VegTM Acid Hydrolysate
- 2015Physicochemical and Spectroscopic Characterization of p-Chlorobenzaldehyde: An Impact of Biofield Energy Treatment
- 2015Physical, Thermal and Spectroscopic Studies of Biofield Treated p-Chlorobenzonitrilecitations
- 2015Effect of Biofield Treatment on Structural and Morphological Properties of Silicon Carbide
- 2015Potential Impact of Biofield Energy Treatment on the Atomic, Physical And Thermal Properties Indium Powder
- 2015Characterization of Physicochemical and Spectroscopic Properties of Biofield Energy Treated Bio Peptone
- 2015Thermal and physical properties of biofield treated bile salt and proteose peptonecitations
- 2015Impact of Biofield Treatment on Atomic and Structural Characteristics of Barium Titanate Powdercitations
- 2015Physicochemical and Spectroscopic Characterization of Yeast Extract Powder After the Biofield Energy Treatmentcitations
- 2015Physical, Thermal and Spectroscopic Characterization of Biofield Treated p-Chloro-m-cresolcitations
- 2015Characterization of Physical and Structural Properties of Brass Powder After Biofield Treatment
- 2015Characterization of Physical and Structural Properties of Brass Powder After Biofield Treatmentcitations
- 2015Characterization of Physical, Thermal and Structural Properties of Chromium (VI) Oxide Powder: Impact of Biofield Treatmentcitations
- 2015Effect of Biofield Treatment on Physical, Thermal, and Spectral Properties of SFRE 199-1 Mammalian Cell Culture Medium
- 2015Experimental Investigation on Physical, Thermal and Spectroscopic Properties of 2-Chlorobenzonitrile: Impact of Biofield Treatmentcitations
- 2015Effect of Biofield Treatment on the Physical and Thermal Characteristics of Aluminium Powderscitations
- 2015Evaluation of Biofield Treatment on Physical and Structural Properties of Bronze Powder
- 2015Characterization of Physical, Spectral and Thermal Properties of Biofield Treated 1,2,4-Triazolecitations
- 2015Characterization of Physical, Thermal and Spectroscopic Properties of Biofield Energy Treated P-Phenylenediamine and p-Toluidinecitations
- 2015Influence of biofield treatment on physicochemical properties of hydroxyethyl cellulose and hydroxypropyl cellulosecitations
- 2015Evaluation of Physical, Thermal and Spectral Parameters of Biofield Energy Treated Methylsulfonylmethanecitations
- 2015Physical, Thermal, and Spectroscopic Characterization of Biofield Energy Treated Methyl-2-Naphthyl Ethercitations
- 2015Physicochemical and Spectroscopic Properties of Biofield Energy Treated Protose
- 2015Characterization of Thermal and Physical properties of Biofield Treated Acrylamide and 2-Chloroacetamidecitations
- 2015The Potential Impact of Biofield Treatment on Physical, Structural and Mechanical Properties of Stainless Steel Powdercitations
- 2015Influence of Biofield Treatment on Physical, Structural and Spectral Properties of Boron Nitridecitations
- 2015Bio-field treatment: An effective strategy to improve the quality of beef extract and meat infusion powdercitations
- 2015Characterization of Physical, Spectroscopic and Thermal Properties of Biofield Treated Biphenylcitations
- 2015Influence of Biofield Treatment on Physical and Structural Characteristics of Barium Oxide and Zinc Sulfidecitations
- 2015Structural and physical properties of biofield treated thymol and mentholcitations
- 2015Characterization of Physical, Thermal and Spectral Properties of Biofield Treated o-Aminophenolcitations
- 2015Physicochemical and Spectroscopic Characterization of Biofield Energy Treated p-Anisidinecitations
- 2015Physical, Thermal, and Spectroscopic Characterization of Biofield Energy Treated Murashige and Skoog Plant Cell Culture Mediacitations
- 2015Physicochemical and Spectral Characterization of Biofield Energy Treated 4-Methylbenzoic Acidcitations
- 2015Physicochemical Characterization of Biofield Energy Treated Calcium Carbonate Powdercitations
- 2015Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzenecitations
- 2015Biofield Treatment: An Effective Strategy for Modulating the Physical and Thermal Properties of O-Nitrophenol, M-Nitrophenol and P-Tertiary Butyl Phenol
- 2015Impact of Biofield Treatment on Chemical and Thermal Properties of Cellulose and Cellulose Acetatecitations
- 2015Physicochemical and Atomic Characterization of Silver Powder after Biofield Treatmentcitations
- 2015Characterization of Physicochemical and Thermal Properties of Chitosan And Sodium Alginate after Biofield Treatmentcitations
- 2015Physical, Thermal and Spectroscopic Characterization of m-Toluic Acid: an Impact of Biofield Treatmentcitations
- 2015Effect of biofield treatment on structural and morphological properties of silicon carbidecitations
- 2015Physical, Thermal and Spectral Properties of Biofield Energy Treated 2,4-Dihydroxybenzophenone
- 2015Characterization of Physicochemical and Thermal Properties of Biofield Treated Ethyl Cellulose and Methyl Cellulose
- 2015Physical, Atomic and Thermal Properties of Biofield Treated Lithium Powdercitations
- 2015Physical and Structural Characterization of Biofield Energy Treated Carbazolecitations
- 2015Characterization of Physical and Structural Properties of Aluminium Carbide Powder: Impact of Biofield Treatmentcitations
- 2015Physicochemical Evaluation of Biofield Treated Peptone And Malmgren Modified Terrestrial Orchid Mediumcitations
- 2013Effect of Bio Field Treatment on the Physical and Thermal Characteristics of Vanadium Pentoxide Powderscitations
- 2013Effect of Bio Field Treatment on the Physical and Thermal Characteristics of Silicon, Tin and Lead Powderscitations
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article
Effect of Bio Field Treatment on the Physical and Thermal Characteristics of Vanadium Pentoxide Powders
Abstract
Vanadium pentoxide powders are very useful in producing ferrous as well as aluminium alloys, in removing carbon and sulphur and as catalysts in synthesizing ammonia and sulphuric acid. It is also used as corrosion inhibitor petroleum and chemical processing.In the present investigation V2O5 powders are exposed to biofield. Both the exposed and unexposed powders are later characterized by various techniques. The average particle size is found to decrease with increase in number of days after treatment up to a maximum of 15.9% in 110 days indicating severe fracture at agglomerate/ crystallite boundaries. The BET surface area showed a surprising decrease (it should increase as particle size is decreased) of 7.22% in 109 days indicating the surface densification/ removal of sharp surface corners/ formation of large particles. SEM photographs indeed showed that samples exposed to biofield after 20 days showed increase in size as well as rounded corners. Thermal analysis indicated an increase in melting temperature by 9.9% in samples treated after 57 days along with a much reduced change in weight.X-ray diffraction of the powder samples indicated both increase and decrease in crystallite size, unit cell volume and molecular weight of samples exposed to biofield after 28, 104, 124 and 139 days.These results indicate that the catalytic nature of vanadium pentoxide can be controlled by exposing to bio field and using after a specific number of days after exposure.