Materials Science : a Field of Diverse Industrial Applications / edited by Arti Srivastava [and three others].

Format:

Book

Author/Creator:

Srivastava, Arti, Author.

Contributor:

Srivastava, Arti, editor.

Language:

English

Subjects (All):

Materials science.

Physical Description:

1 online resource (197 pages)

Edition:

First edition.

Place of Publication:

Singapore : Bentham Science Publishers Pte. Ltd., 2023.

Summary:

Materials Science: A Field of Diverse Industrial Applications provides a comprehensive overview of recent developments in new materials and their applications across various fields. With ten chapters from reputed experts in materials chemistry, the book covers a wide range of topics including thin-film nanomaterials (including chalcogenide, zinc oxide and barium fluoride thin films), multiferroic nanoceramics, synthetic nanofibers, and polymer electrolytes. The content is divided into three sections, covering modified materials, functionalized nanomaterials, and the role of nanomaterials and modified materials in waste removal, chemical synthesis, and energy production. This book is an essential resource for researchers, scientists, and professionals in materials science, nanotechnology, and related fields who want to stay updated with recent advancements and their industrial applications. It also serves as a reference for advanced materials science courses.

Contents:

Cover

Title

Copyright

End User License Agreement

Contents

Preface

List of Contributors

Part 1: Functional Materials and their Versatility

Chalcogenides: Bulk and Thin Films

Anchal Srivastava1,*, Rajesh Kumar Shukla1, Priyanka Srivastava2, Pramesh Chandra3 and Nishant Kumar4

CHALCOGENS

CHALCOGENIDES

APPLICATIONS OF CHALCOGENIDES

MATERIALS AND METHODS

SYNTHESIS OF BULK CHALCOGENIDES

Melt Quenching Technique

Thermolysis or Thermal Decomposition

Sonochemical Synthesis or Ultrasound Irradiation

Photochemical Synthesis

Chemical Precipitation/Co-Precipitation

γ-Irradiation Method

Microwave Synthesis

SYNTHESIS OF THIN FILMS OF CHALCOGENIDES

Choice of Substrate

Cleaning and Drying of Substrate

Methods of thin Film Deposition

Physical Deposition Methods

Thermal Evaporation

Sputtering

Pulsed Laser Deposition (PLD)

Molecular Beam Epitaxy (MBE)

Chemical Deposition Methods

Chemical Vapour Deposition (CVD)

Chemical Bath Deposition (CBD)

Sol-gel Spin Coating

Spray Pyrolysis

OTHER METHODS

ANNEALING

SAMPLES PREPARED IN OUR LABORATORY

CONCLUSION

CONSENT FOR PUBLICATION

CONFLICT OF INTEREST

ACKNOWLEDGEMENTS

REFERENCES

Recent Advances in Chalcogenide Glasses and their Applications

Horesh Kumar1,* and Achchhe Lal Saroj1

INTRODUCTION

Structure of Chalcogenide Glasses (ChGs)

Electronic Structure of Chalcogenide Glasses

Defects in Glasses

Street-Mott Model

Kastner, Adler and Fritzsche Model

METHODS OF PREPARATION

PROPERTIES OF CHALCOGENIDE GLASSES

Al Doped ZnO Thin Films: Beginning to Developments Afoot

Kamakhya Prakash Misra1,*

BASIC PROPERTIES OF ZNO

AL-DOPED ZNO.

Transparent Conducting Electrodes

Solar Cells/Photovoltaics

Flexible/Organic/Smart Electronics

Plasmonics

ACKNOWLEDGEMENT

Commercial Applications of Synthetic Fibres

Sunanda Das1,*

RAYON

Viscose Rayon

Cuprammonium Rayon (Cupro)

Acetate Rayon

LYOCELL

Environmental Impact

POLYESTER

Commercial Uses of Polyester

Commercial Application of Polyester

POLYOLEFINS

POLYAMIDES

NYLON

Nylon 6 &amp

Nylon 66

ARAMIDS

NOMEX

POLYVINYL FIBERS

Vinyon

POLYVINYLIDENE FIBERS

Saran Fibers

POLYURETHANE FIBRES

Lycra

Investigation of Substrate-effect on BaF2 Thin Films: A Study of Fractal Nature

Pradip Kumar Priya1,*, Ram Pratap Yadav2, Hari Pratap Bhasker3, Anil Kumar4 and Kusum Lata Pandey1

EXPERIMENTAL DETAILS

METHODS

Classical Technique

Brownian Motion

Higuchi Algorithm

RESULT AND DISCUSSION

Part 2: Nano Functional Materials and Their Application

A Detailed Study of Structural, Dielectric and Luminescence Properties of Sm3+ Doped BiFeO3 Nanoceramics

Satish Kumar Mandal1,2,*, Savita3,4,*, Pradip Kumar Priya5, Ram Pratap Yadav6, Hari Pratap Bhasker7, Raj Kumar Anand3 and Amreesh Chandra1

EXPERIMENTAL PROCEDURE

Structural Analysis

Microstructural Analysis

Luminescence Properties

Dielectric Properties

Application of Nanotechnology in Wastewater Cleaning Process.

Monika Singh1,*, Deepanjali Pandey1, Dharamveer Singh2, Shalini Verma3 and Vijay Krishna3

INORGANIC CATION EXCHANGE MATERIALS- MATERIAL FOR WATER CLEAN UP

IRON NANOMATERIALS

FERRITIN

COLLOIDAL NANOPARTICLES

CARBON NANOTUBES

TITANATE NANOFIBERS

FERRIC HEXACYANOFERRATE FE4[FE(CN)6]3·XH2O

NANOFILTRATION

OTHER METHODS HELPFUL IN RADIOWASTE WATER CLEANUP - PLANT -REMEDIATION

Rhizofiltration

Phytosequesteration

Phytovolatilization

ACKNOWLEDGMENTS

Nanomaterials in Organic Synthesis

Shraddha Tivari1,*, Manoj Kumar1, Seraj Ahmad1, Akram Ali1 and Vishal Srivastava1

NANOMATERIALS VS BULK MATERIALS

IMPORTANCE OF NANOMATERIALS

APPLICATIONS OF NANOPARTICLES IN ORGANIC SYNTHESIS

Part 3: Functional Materials for Energy Conservation

Implications and Applications of Multifunctional Advanced Materials/Gadgets for Energy Conver- sion and Storage

Pinki1, Subhash1 and Ashu Chaudhary1,*

VARIOUS METHODS FOR ENERGY STORAGE AND CONVERSION

Energy Storage and Conversion by Mithium-ion Batteries

TES with PCM

Supercapacitors

Two-dimensional Transition Metal Dichalcogenides

Energy Storage Applications of Polyoxometalate Modified Inorganic-organic Nanocomposite Materials

Graphene for Energy Storage and Conversion

Atomic Layer Deposition for Energy Storage

Polyaniline

Investigation on Various Polymer Electrolytes for Development of Dye Sensitized Solar Cell

Priyanka Chawla1,*, Shivangi Trivedi1 and Kumari Pooja1

INTRODUCTION.

BASIC PRINCIPLE OF DYE-SENSITIZED SOLAR CELLS

PREPARATION OF POLYMER ELECTROLYTE FILM

Solution Cast Technique

PEO BASED POLYMER ELECTROLYTE FOR DSSCS

PVA BASED POLYMER ELECTROLYTE FOR DSSCS

PVDF BASED POLYMER ELECTROLYTE FOR DSSCS

CHITOSAN BASED POLYMER ELECTROLYTE FOR DSSCS

Back Cover.

Notes:

Includes bibliographical references.

Description based on publisher supplied metadata and other sources.

Description based on print version record.

ISBN:

9789815051247

9815051245

OCLC:

1394117270