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XRD and FTIR Analysis. Antimony sulfide (Sb2S3) has gained extensive attention in solar cells due to their potential as a low-cost and earth abundant absorber material.

XRD and FTIR Analysis

In solar cell absorber, the optoelectrical properties such as energy band gap and absorption coefficient of Sb2S3 play an important role, which have strong relationships with their crystal structure, lattice parameter and crystallite size. Hence in the present investigation, Sb2S3 powder samples were exposed to biofield treatment, and further its physical, structural and spectral properties are investigated.

The particle size analysis showed larger particle size and surface area after treatment. X-ray diffraction (XRD) analysis revealed polycrystalline orthorhombic structure with superior crystallinity in treated Sb2S3 along with significant changes in the lattice parameters, which led to changes in unit cell volume and density. XRD data analysis indicates that crystallite size was increased by around 150% in treated sample. Impact of Biofield on Antimony Sulfide Properties.

Title: Impact of Biofield Treatment on Physical, Structural and Spectral Properties of Antimony Sulfide Publication: Industrial Engineering & Management Select license: Creative Commons Attributions Updated: March 30th, 2016 Abstract: Antimony sulfide (Sb2S3) has gained extensive attention in solar cells due to their potential as a low-cost and earth abundant absorber material. Investigation of Physical Properties of Antimony Sulfide. 0WordPress0CiteULike0 47 Antimony sulfide (Sb2S3) has gained extensive attention in solar cells due to their potential as a low-cost and earth abundant absorber material. In solar cell absorber, the optoelectrical properties such as energy band gap and absorption coefficient of Sb2S3 play an important role, which have strong relationships with their crystal structure, lattice parameter and crystallite size.��Hence in the present investigation, Sb2S3 powder samples were exposed to biofield treatment, and further its physical, structural and spectral properties are investigated.

The particle size analysis showed larger particle size and surface area after treatment. X-ray diffraction (XRD) analysis revealed polycrystalline orthorhombic structure with superior crystallinity in treated Sb2S3 along with significant changes in the lattice parameters, which led to changes in unit cell volume and density. Your evaluation is of great value to our authors and readers. Review. Spectral Properties of Antimony Sulfide. Description Antimony sulfide (Sb2S3) has gained extensive attention in solar cells due to their potential as a low-cost and earth abundant absorber material.

Spectral Properties of Antimony Sulfide

In solar cell absorber, the optoelectrical properties such as energy band gap and absorption coefficient of Sb2S3 play an important role, which have strong relationships with their crystal structure, lattice parameter and crystallite size. Hence in the present investigation, Sb2S3 powder samples were exposed to biofield treatment, and further its physical, structural and spectral properties are investigated. The particle size analysis showed larger particle sizeand surface area after treatment. Antimony Sulfide FT-IR Spectrum Analysis. Evaluation of Structural Properties of Antimony Sulfide. XRD Analysis of Antimony Sulfide. Citation: Trivedi MK, Nayak G, Patil S, Tallapragada RM, Latiyal O (2015) Impact of Bioeld Treatment on Physical, Structural and Spectral Properties of Antimony Sulde.

XRD Analysis of Antimony Sulfide

Ind Eng Manage 4: 165. doi:10.4172/2169-0316.1000165. Analysis of Physical Properties of Antimony Sulfide. Alternative Energy Treatment. Type: Published Article Log in to comment Statistics Seen 361 times 0 Comments.

Alternative Energy Treatment

Particle Size & Surface Area Analysis of Silicon Carbide. Title: Effect of Biofield Treatment on Structural and Morphological Properties of Silicon Carbide.

Particle Size & Surface Area Analysis of Silicon Carbide

Energy Treatment Impact on Properties of Silicon Carbide. 0WordPress0CiteULike0 26 Silicon carbide (SiC) is a well-known ceramic due to its excellent spectral absorbance and thermo-mechanical properties. The wide band gap, high melting point and thermal conductivity of SiC is used in high temperature applications. The present study was undertaken to investigate the effect of biofield treatment on physical, atomic, and structural characteristics of SiC powder.

The control and biofield treated SiC powder was analysed using X-ray diffraction (XRD), particle size analyzer, surface area analyzer, and Fourier transform infrared (FT-IR) spectroscopy techniques with respect to control. The XRD pattern revealed that crystallite size was significantly increased by 40% in treated SiC as compared to control. Your session has expired but don’t worry, your message has been saved.Please log in and we’ll bring you back to this page. Your evaluation is of great value to our authors and readers. FTIR Analysis of Silicon Carbide. Description Silicon carbide (SiC) is a well-known ceramic due to its excellent spectral absorbance and thermo-mechanical properties.

FTIR Analysis of Silicon Carbide

The wide band gap, high melting point and thermal conductivity of SiC is used in high temperature applications. The present study was undertaken to investigate the effect of biofield treatment on physical, atomic, and structural characteristics of SiC powder. The control and biofield treated SiC powder was analysed using X-ray diffraction (XRD), particle size analyzer, surface area analyzer, and Fourier transform infrared (FT-IR) spectroscopy techniques with respect to control. The XRD pattern revealed that crystallite size was significantly increased by 40% in treated SiC as compared to control. Citation Information Mahendra Kumar Trivedi. Structural and Morphological Properties of Silicon Carbide. XRD Analysis of Silicon Carbide.

Evaluation of Silicon Carbide Morphological Properties. Analysis of Silicon Carbide Structural Properties. Citation: Trivedi MK, Nayak G, Tallapragada RM, Patil S, Latiyal O, et al. (2015) Effect of Bioeld Treatment on Structural and Morphological Properties of Silicon Carbide.

Analysis of Silicon Carbide Structural Properties

J Powder Metall Min 4: 132. doi:10.4172/2168-9806.1000132. Physical and Atomic Properties of Silicon Carbide. Biochemical Characteristics of Serratia Marcescens. Evaluation of Antibiogram of Serratia Marcescens. Biotype Study of S. Marcescens. Serratia Marcescens Biochemical Tests. Antimicrobial Sensitivity of Serratia Marcescens. Biophoton Analysis of Cashew Plant. Increase in Chlorophyll Content in Cashew Plant.

Cashew RAPD Analysis. Molecular Analysis of Cashew Plant. Colletotrichum gloeosporioides A#(.#.,4 F&G$4FGetc#1<$$<. 2.

Molecular Analysis of Cashew Plant

Improvement in Mustard Plant Growth Parameters. 292 Mahendra Kumar Trivedi et al.: Evaluation of Plant Growth, Yield and Yield Attributes of Biofield Energy Treated Mustard (Brassica Juncea) and Chick Pea (Cicer Arietinum) Seeds considered a s an important le gume in the newl y cultivated land.

Improvement in Mustard Plant Growth Parameters

Chick pea is the third most widely grown gra in legume after bean and soybean in the world. Increase in Plant Growth of Chick Pea. Study of Yield Attributes of Chick Pea. Evaluation of Yield Attributes of Mustard. Yield of Mustard & Chick Pea Seeds. Characterization of 3-Chloronitrobenzene. The chloronitrobenzenes are widely used as the intermediates in the production of pharmaceuticals, pesticides and rubber processing chemicals. However, due to their wide applications, they are frequently released into the environment thereby creating hazards. The objective of the study was to use an alternative strategy i.e. biofield energy treatment and analysed its impact on the physical, thermal and spectral properties of 3-chloronitrobenzene (3-CNB).

For the study, the 3-CNB sample was taken and divided into two groups, named as control and treated. The analytical techniques used were X-ray diffraction (XRD), thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), UV-Visible (UV-Vis), and Fourier transform infrared (FT-IR) spectroscopy. The treated group was subjected to the biofield energy treatment and analysed using these techniques against the control sample.

Physical, Thermal & Spectral Properties of 3-CNB. Title: Characterization of Biofield Energy Treated 3-Chloronitrobenzene: Physical, Thermal, and Spectroscopic Studies Publication:

Physical, Thermal & Spectral Properties of 3-CNB

Evaluation of Thermal Properties of 3-CNB. Research Article Open Access Trivedi, et al., Int J Waste Resources 2015, 5:4 International Journal of Waste Resources Volume 5 • Issue 4 • 1000183 Int J Waste Resources ISSN: 2252-5211 IJWR, an open access journal. Energy Treatment of 3-Chloronitrobenzene. Description The chloronitrobenzenes are widely used as the intermediates in the production of pharmaceuticals, pesticides and rubber processing chemicals. However, due to their wide applications, they are frequently released into the environment thereby creating hazards.

The objective of the study was to use an alternative strategy i.e. biofield energy treatment and analysed its impact on the physical, thermal and spectral properties of 3-chloronitrobenzene (3-CNB). For the study, the 3-CNB sample was taken and divided into two groups, named as control and treated. The analytical techniques used were X-ray diffraction (XRD), thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), UV-Visible (UV-Vis), and Fourier transform infrared (FT-IR) spectroscopy. Citation Information Mahendra Kumar Trivedi. Analysis of Physical Properties of 3-CNB. TGA Analysis of 3-Chloronitrobenzene. 3-Chloronitrobenzene XRD Analysis.

Spectroscopic Characterization of 3-Chloronitrobenzene. Citation: Trivedi MK, Branton A, Trivedi D, Nayak G, Singh R, et al. (2015) Characterization of Bioeld Energy Treated 3-Chloronitrobenzene: Physical, Thermal, and Spectroscopic Studies . J Waste Resources 5: 183. doi: 10.4172/2252-5211.1000183. Properties Alterations of 2-Chlorobenzonitrile. 2-chlorobenzonitrile (2-ClBN) is widely used in the manufacturing of azo dyes, pharmaceuticals, and as intermediate in various chemical reactions. Physical & Spectroscopic Properties of 2-Chlorobenzonitrile. 39 Mahendra Kumar Trivedi et al.: Experimental Investigation on Physical, Thermal and Spectroscopic. FT-IR Analysis of 2-Chlorobenzonitrile. Description 2-chlorobenzonitrile (2-ClBN) is widely used in the manufacturing of azo dyes, pharmaceuticals, and as intermediate in various chemical reactions.

Analysis of 2-Chlorobenzonitrile Physical Properties. 2-Chlorobenzonitrile Spectroscopic Properties. Properties of 2-Chlorobenzonitrile. 2-Chlorobenzonitrile - Physical, Thermal & Spectroscopic Properties. GC-MS, DSC, & HPLC Analysis. Ethanol is a polar organic solvent, and frequently used as a fuel in automobile industries, principally as an additive with gasoline due to its higher octane rating. It is generally produced from biomass such as corn, sugar and some other agriculture products. Impact of Energy Treatment on Properties of Ethanol. Evaluation of Atomic and Thermal Properties of Ethanol.

Vol. 1 No. 1:5 © Copyright iMedPub | This article is available from: Insights in Analytical Electrochemistry. Ethanol Analysis by HPLC after Energy treatment. Description. Ethanol Analysis by Gas Chromatography. DSC Analysis of Ethanol After Energy treatment. Study of Atomic Properties of Ethanol. Biofield Impact on Thermal Properties of Ethanol. Biochemical Studies of P-Chlorobenzaldehyde. P-Chlorobenzaldehyde XRD Analysis. Study of P-Chlorobenzaldehyde IR Spectrum. Alteration in P-CBA XRD Analysis. Physicochemical Properties of P-Chlorobenzaldehyde.

Spectroscopic Properties of P-Chlorobenzaldehyde. P-Chlorobenzaldehyde Properties - Impact of Biofield Energy. The Trivedi Effect to Overcome The Addiction. The Trivedi Effect to get Relife from Anxiety. Changing the Atomic Properties of Lithium.

Lithium XRD Analysis: Alteration in Atomic Properties. Impact of Energy Treatment on Lithium Powder.