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The Resource Ferrite Materials for Memory Applications

Ferrite Materials for Memory Applications

Resource Information

The item Ferrite Materials for Memory Applications represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri-St. Louis Libraries.
This item is available to borrow from 1 library branch.

Creator

Saravanan, R

Summary: The book discusses the synthesis and characterization of various ferrite materials used for memory applications. The distinct feature of the book is the construction of charge density of ferrites by deploying the maximum entropy method (MEM). This charge density gives the distribution of charges in the ferrite unit cell, which is analyzed for charge related properties

Language: eng

Work

Publication

Millersville, PA, Materials Research Forum LLC, 2017

Extent: 1 online resource (172 pages)

Contents

Front-matter -- table of contents -- 1 -- 1. Introduction -- 1.1 Objectives of the present work -- 1.2 Methodologies and software programs employed in this research work -- 1.3 Magnetism and classification of magnetic materials -- 1.4 Spinel ferrites -- 1.5 Types of spinel ferrites -- 1.6 Magnetic interactions in ferrites -- 1.7 Synthesis of ferrite samples -- 1.7.1 Mechanical alloying method -- 1.7.2 Sintering -- 1.7.3 Pre-sintering -- 1.7.4 Final sintering -- 1.7.5 Co-precipitation method -- 1.7.6 Molten-salt low temperature method
1.7.7 Synthesis of Ni0.5Zn0.5Fe2O4 nano ferrite particles by mechanical alloying1.7.8 Synthesis of (XxYyZz) Fe2O4 ferrites samples by co-precipitation method -- 1.7.9 Synthesis of NiFe2O4 nano ferrite particles -- 1.8 Characterizations techniques -- 1.8.1 Structural studies â#x80;#x93; X-Ray diffraction -- 1.8.2 Braggâ#x80;#x99;s law -- 1.8.3 Powder diffraction -- 1.8.4 Thermal analysis -- 1.8.5 Morphology studies -- Scanning electron microscope (SEM) -- 1.8.6 Elemental analysis and compositional studies â#x80;#x93; EDX and XRF -- 1.8.6.1 Energy dispersive X-ray analysis
1.8.6.2 X-ray fluorescence (XRF)1.8.7 Magnetic studies â#x80;#x93; Vibrating sample magnetometer -- 1.8.8 Hysteresis loop -- 1.8.9 Optical studies -- UV-visible spectroscopy -- 1.8.10 Dielectric studies â#x80;#x93; Broad band dielectric spectrometer -- 1.8.11 Polarization -- 1.8.12 Effects of frequency on polarization -- 1.8.13 Dielectric constant -- 1.8.14 Frequency dependence of dielectric constant -- 1.8.15 Dielectric strength -- 1.9 Characterizations of ferrites -- 1.10 Methodologies employed in this research work -- 1.10.1 Rietveld method
1.10.2 Theory of Rietveld method1.10.3 Rietveld refinement -- 1.10.4 Maximum entropy method (MEM) -- 1.10.5 Implication of MEM -- 1.10.6 Principle of maximum entropy method (MEM) -- 1.10.7 Theory of MEM -- 1.11 Theories involved in the present research work -- 1.11.1 Estimation of cation distribution -- 1.11.2 Estimation of magnetic properties of ferrites -- 1.11.3 Estimation of optical band gap energy -- 1.11.3.1 Theory -- 1.11.4 Estimation of dielectric properties -- 1.12 Photographs of samples synthesized in this research study -- References -- 2. Results
2. Introduction2.1 Structural characterization of the synthesized samples -- 2.2 Results â#x80;#x93; Raw powder XRD data -- 2.3 Results â#x80;#x93; Cation distribution -- 2.4 Results â#x80;#x93; Refined powder XRD of synthesized samples -- 2.5 TG/DTA analysis of Ni0.5Zn0.5Fe2O4 (700 -- 1000 C) and Ni0.8Zn0.2Fe2O4 samples -- 2.6 Morphological studies of synthesized samples -- 2.6.1 SEM results -- 2.6.2 EDAX and XRF characterization results -- 2.7 Results â#x80;#x93; MEM analysis -- 2.8 Results -- Magnetic properties -- 2.9 Results -- Optical properties -- 2.10 Results -- Dielectric properties

Isbn: 9781945291395

Instance

Label: Ferrite Materials for Memory Applications

Title: Ferrite Materials for Memory Applications

Creator

Saravanan, R

Subject

Language: eng

Summary: The book discusses the synthesis and characterization of various ferrite materials used for memory applications. The distinct feature of the book is the construction of charge density of ferrites by deploying the maximum entropy method (MEM). This charge density gives the distribution of charges in the ferrite unit cell, which is analyzed for charge related properties

Member of

Cataloging source: EBLCP

http://library.link/vocab/creatorName: Saravanan, R

Dewey number: 621.34

Index: no index present

LC call number: TK7871.15.F4

LC item number: S37 2017eb

Literary form: non fiction

Nature of contents: dictionaries

Series statement: Materials Research Foundations

Series volume: v. 18

http://library.link/vocab/subjectName

Ferrites (Magnetic materials)
Electronics
TECHNOLOGY & ENGINEERING
Electronics
Ferrites (Magnetic materials)

Label: Ferrite Materials for Memory Applications

Instantiates

Ferrite Materials for Memory Applications

Publication

Millersville, PA, Materials Research Forum LLC, 2017

Antecedent source: unknown

Bibliography note: ""References""

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

Front-matter -- table of contents -- 1 -- 1. Introduction -- 1.1 Objectives of the present work -- 1.2 Methodologies and software programs employed in this research work -- 1.3 Magnetism and classification of magnetic materials -- 1.4 Spinel ferrites -- 1.5 Types of spinel ferrites -- 1.6 Magnetic interactions in ferrites -- 1.7 Synthesis of ferrite samples -- 1.7.1 Mechanical alloying method -- 1.7.2 Sintering -- 1.7.3 Pre-sintering -- 1.7.4 Final sintering -- 1.7.5 Co-precipitation method -- 1.7.6 Molten-salt low temperature method
1.7.7 Synthesis of Ni0.5Zn0.5Fe2O4 nano ferrite particles by mechanical alloying1.7.8 Synthesis of (XxYyZz) Fe2O4 ferrites samples by co-precipitation method -- 1.7.9 Synthesis of NiFe2O4 nano ferrite particles -- 1.8 Characterizations techniques -- 1.8.1 Structural studies â#x80;#x93; X-Ray diffraction -- 1.8.2 Braggâ#x80;#x99;s law -- 1.8.3 Powder diffraction -- 1.8.4 Thermal analysis -- 1.8.5 Morphology studies -- Scanning electron microscope (SEM) -- 1.8.6 Elemental analysis and compositional studies â#x80;#x93; EDX and XRF -- 1.8.6.1 Energy dispersive X-ray analysis
1.8.6.2 X-ray fluorescence (XRF)1.8.7 Magnetic studies â#x80;#x93; Vibrating sample magnetometer -- 1.8.8 Hysteresis loop -- 1.8.9 Optical studies -- UV-visible spectroscopy -- 1.8.10 Dielectric studies â#x80;#x93; Broad band dielectric spectrometer -- 1.8.11 Polarization -- 1.8.12 Effects of frequency on polarization -- 1.8.13 Dielectric constant -- 1.8.14 Frequency dependence of dielectric constant -- 1.8.15 Dielectric strength -- 1.9 Characterizations of ferrites -- 1.10 Methodologies employed in this research work -- 1.10.1 Rietveld method
1.10.2 Theory of Rietveld method1.10.3 Rietveld refinement -- 1.10.4 Maximum entropy method (MEM) -- 1.10.5 Implication of MEM -- 1.10.6 Principle of maximum entropy method (MEM) -- 1.10.7 Theory of MEM -- 1.11 Theories involved in the present research work -- 1.11.1 Estimation of cation distribution -- 1.11.2 Estimation of magnetic properties of ferrites -- 1.11.3 Estimation of optical band gap energy -- 1.11.3.1 Theory -- 1.11.4 Estimation of dielectric properties -- 1.12 Photographs of samples synthesized in this research study -- References -- 2. Results
2. Introduction2.1 Structural characterization of the synthesized samples -- 2.2 Results â#x80;#x93; Raw powder XRD data -- 2.3 Results â#x80;#x93; Cation distribution -- 2.4 Results â#x80;#x93; Refined powder XRD of synthesized samples -- 2.5 TG/DTA analysis of Ni0.5Zn0.5Fe2O4 (700 -- 1000 C) and Ni0.8Zn0.2Fe2O4 samples -- 2.6 Morphological studies of synthesized samples -- 2.6.1 SEM results -- 2.6.2 EDAX and XRF characterization results -- 2.7 Results â#x80;#x93; MEM analysis -- 2.8 Results -- Magnetic properties -- 2.9 Results -- Optical properties -- 2.10 Results -- Dielectric properties

Control code: 1012346747

Dimensions: unknown

Extent: 1 online resource (172 pages)

File format: unknown

Form of item: online

Isbn: 9781945291395

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Quality assurance targets: not applicable

Reformatting quality: unknown

Sound: unknown sound

Specific material designation: remote

System control number: (OCoLC)1012346747

Label: Ferrite Materials for Memory Applications

Publication

Millersville, PA, Materials Research Forum LLC, 2017

Antecedent source: unknown

Bibliography note: ""References""

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

Front-matter -- table of contents -- 1 -- 1. Introduction -- 1.1 Objectives of the present work -- 1.2 Methodologies and software programs employed in this research work -- 1.3 Magnetism and classification of magnetic materials -- 1.4 Spinel ferrites -- 1.5 Types of spinel ferrites -- 1.6 Magnetic interactions in ferrites -- 1.7 Synthesis of ferrite samples -- 1.7.1 Mechanical alloying method -- 1.7.2 Sintering -- 1.7.3 Pre-sintering -- 1.7.4 Final sintering -- 1.7.5 Co-precipitation method -- 1.7.6 Molten-salt low temperature method
1.7.7 Synthesis of Ni0.5Zn0.5Fe2O4 nano ferrite particles by mechanical alloying1.7.8 Synthesis of (XxYyZz) Fe2O4 ferrites samples by co-precipitation method -- 1.7.9 Synthesis of NiFe2O4 nano ferrite particles -- 1.8 Characterizations techniques -- 1.8.1 Structural studies â#x80;#x93; X-Ray diffraction -- 1.8.2 Braggâ#x80;#x99;s law -- 1.8.3 Powder diffraction -- 1.8.4 Thermal analysis -- 1.8.5 Morphology studies -- Scanning electron microscope (SEM) -- 1.8.6 Elemental analysis and compositional studies â#x80;#x93; EDX and XRF -- 1.8.6.1 Energy dispersive X-ray analysis
1.8.6.2 X-ray fluorescence (XRF)1.8.7 Magnetic studies â#x80;#x93; Vibrating sample magnetometer -- 1.8.8 Hysteresis loop -- 1.8.9 Optical studies -- UV-visible spectroscopy -- 1.8.10 Dielectric studies â#x80;#x93; Broad band dielectric spectrometer -- 1.8.11 Polarization -- 1.8.12 Effects of frequency on polarization -- 1.8.13 Dielectric constant -- 1.8.14 Frequency dependence of dielectric constant -- 1.8.15 Dielectric strength -- 1.9 Characterizations of ferrites -- 1.10 Methodologies employed in this research work -- 1.10.1 Rietveld method
1.10.2 Theory of Rietveld method1.10.3 Rietveld refinement -- 1.10.4 Maximum entropy method (MEM) -- 1.10.5 Implication of MEM -- 1.10.6 Principle of maximum entropy method (MEM) -- 1.10.7 Theory of MEM -- 1.11 Theories involved in the present research work -- 1.11.1 Estimation of cation distribution -- 1.11.2 Estimation of magnetic properties of ferrites -- 1.11.3 Estimation of optical band gap energy -- 1.11.3.1 Theory -- 1.11.4 Estimation of dielectric properties -- 1.12 Photographs of samples synthesized in this research study -- References -- 2. Results
2. Introduction2.1 Structural characterization of the synthesized samples -- 2.2 Results â#x80;#x93; Raw powder XRD data -- 2.3 Results â#x80;#x93; Cation distribution -- 2.4 Results â#x80;#x93; Refined powder XRD of synthesized samples -- 2.5 TG/DTA analysis of Ni0.5Zn0.5Fe2O4 (700 -- 1000 C) and Ni0.8Zn0.2Fe2O4 samples -- 2.6 Morphological studies of synthesized samples -- 2.6.1 SEM results -- 2.6.2 EDAX and XRF characterization results -- 2.7 Results â#x80;#x93; MEM analysis -- 2.8 Results -- Magnetic properties -- 2.9 Results -- Optical properties -- 2.10 Results -- Dielectric properties

Control code: 1012346747

Dimensions: unknown

Extent: 1 online resource (172 pages)

File format: unknown

Form of item: online

Isbn: 9781945291395

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Quality assurance targets: not applicable

Reformatting quality: unknown

Sound: unknown sound

Specific material designation: remote

System control number: (OCoLC)1012346747

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