Nanotechnology.

Format:

Book

Author/Creator:

Tripathy, Divya Bajpai.

Contributor:

Guptā, Añjali.

Jain, Arvind Kumar.

Language:

English

Subjects (All):

Nanostructured materials.

Smart materials.

Physical Description:

1 online resource (482 pages)

Edition:

1st ed.

Place of Publication:

Sharjah : Bentham Science Publishers, 2024.

Summary:

Nanotechnology: A Quick Guide to Materials and Technologies invites readers to explore the cutting-edge world of nanotechnology, offering a comprehensive yet accessible introduction to this rapidly evolving field. The content provides a foundation for understanding the field and details the properties of significant nanomaterials. Readers will also gain insights into innovative processes while receiving a balanced perspective on the social and regulatory aspects of nanotechnology. Key Features Foundational Knowledge: Begins with an overview of nanotechnology, its history, and its key concepts,Diverse Nanomaterials: Explores various types of nanomaterials, including nanoparticles, nanowires, and carbon-based materials like graphene, detailing their properties and potential applications.Advanced Applications: Explores the real-world uses of nanotechnology across multiple sectors, such as medicine, electronics, energy, and environmental science, demonstrating its transformative impact.Fabrication and Characterization: Covers techniques for creating and analyzing nanomaterials, offering insights into the processes that drive innovation in the field.Ethical and Societal Considerations: Discusses the broader implications of nanotechnology, including ethical, societal, and regulatory aspects Ideal for students, educators, researchers, and industry professionals, this guide serves as an informative resource for anyone looking to deepen their understanding of nanotechnology. ReadershipStudents, educators, researchers, and industry professionals.

Contents:

Intro

Title

Copyright

End User License Agreement

Contents

Preface

List of Contributors

Application of Nanomaterials for Smart Devices

Rinku Kumar1, Milan Singh2,*, Deepak Gupta2 and Srasti Yadav2

INTRODUCTION

NANOELECTRONICS FOR SMART DEVICES

Nanoscale Transistor and Logic Components

Nanomaterials for High-Performance Integrated Circuits

APPLICATION OF NANOMATERIALS IN NANOELECTRONICS

Carbon-based Nanomaterials

Quantum Dots (QDs)

Nanowires

2D Materials

Nanoparticles

Nanostructured Thin Films

Molecular Electronics

Nanostructured Composites

FLEXIBLE DISPLAYS AND NANOMATERIALS

NANOMATERIALS FOR TRANSPARENT CONDUCTIVE FILMS

ROLE OF NANOMATERIALS IN BENDABLE AND ROLLABLE DISPLAYS

ENERGY STORAGE APPLICATIONS

Nanomaterials in High-Capacity Lithium-ion Batteries

Nano Materials used for Supercapacitors

Nanomaterials for Energy Harvesting in Smart Devices

IMPORTANCE OF NANOMATERIALS IN PHOTOCATALYSIS

NANOMATERIALS FOR COMMUNICATIONS

FUTURE PROSPECTS FOR NANOMATERIALS

CONCLUSION

REFERENCES

Semiconductor Nanomaterials

Monika Chauhan1,*, Ananya Bhatia1, Diwakar Chauhan1 and A. K. Jain1

NANOSCIENCES AND NANOTECHNOLOGY

CLASSIFICATION OF SEMICONDUCTOR NANOMATERIALS

Zero-Dimensional Nanostructures (0D)

Quasi One-Dimensional nanostructures (1D)

Two-Dimensional (2D) Nanostructures

Three-Dimensional (3D) Nanostructures

SYNTHESIS OF SEMICONDUCTOR NANOSTRUCTURES

Wet Chemical Method

Sol-Gel Method

Solvothermal/Hydrothermal Method

Sputtering

APPLICATIONS OF SEMICONDUCTOR NANOMATERIALS

Electronic Applications

Photocatalysis

Photovoltaic

Antimicrobial Agents

Water Purification

Environmental Remediation

Semiconductor Nanomaterials for Hydrogen Production

FUTURE PERSPECTIVES

CONCLUSION.

REFERENCES

Advances in Nanostructure-Induced Photocatalysis

Saman Shaheen1, Arvind Kumar Jain2, Syed Asim Ali1, Nayeem Ahmad Pandit1 and Tokeer Ahmad1,*

NANOSTRUCTURES

Nanotubes

Nanoflowers

CLASSIFICATION OF NANOMATERIALS

Classification on the Basis of Dimensions

Zero-Dimensional (0-D) Nanomaterials

One-Dimensional (1D) Nanomaterials

Two-Dimensional (2D) Nanomaterials

Three-Dimensional (3D) Nanomaterials

Classification on the Basis of Composition

Carbon Nanotubes (CNTs)

Graphene

Inorganic-based Nanomaterials

Organic-based Nanomaterials

PHOTOCATALYSIS BY NANOMATERIALS

Photochemical H2 Evolution

Photochemical CO2 Reduction

Polymer Nanocomposites and their Applications

Anita Kushwaha1,* and Smriti Dwivedi2

PROPERTIES OF NANOCOMPOSITES

Thermal Properties

Mechanical Properties

Electrical Properties

Barrier Properties

Rheological Properties

APPLICATION OF NANOMATERIALS

Polymer Nanocomposites as Adsorbent for Dye Removal

Polymer Nanocomposites as Adsorbent for Water Treatment

Polymer Nanocomposites for Metal Ion Removal

Solar Cells

Biomedical Applications of Graphene-Based Polymer Nanocomposites

Biomedical Applications of Carbon-Based Polymer Nanocomposites

Polymeric Nanocomposites for Nanocarrier Applications

Polymer Nanocomposites in Space

Polymer Nanocomposites in Everyday Life

Polymer Nanocomposites in Sensors

Polymer Nanocomposites in Infrastructures/Civil Structures

Food and Beverage Packaging and Safety

Transportation and Safety

Tissue Engineering

Environmental Protection

UV Protection, Clothing, Cosmetics and Sports

Solar Energy Production and Energy Storage

EMI Shielding

Smart Phones.

Market of Polymer Nanocomposites

Thin Films

THE FUTURE

Sustainable Nanostructured Materials for Organic Synthesis

Iqra Sadiq1, Farha Naaz1, Mohd Fazil1 and Tokeer Ahmad1,*

METAL BASED NANOCATALYSTS FOR ORGANIC CONVERSION REACTIONS

Noble Metal Based Organic Conversions

Non-Noble Metals based Organic Conversions

Metal as Support with other Metal based Nanocatalysts

METAL OXIDE BASED NANOCATALYSTS FOR ORGANIC CONVERSION REACTIONS

Fabrication of Metal-Oxide Based Nanocatalysts

Metal Oxide Based Catalysts for Organic Conversions

CARBON BASED NANOCATALYSTS FOR ORGANIC CONVERSION REACTIONS

Fabrication of Carbon-based Derivatives

Fabrication of Graphene Based Derivatives GO and rGO

Fabrication of Graphitic Carbon Nitride-Based Materials

Graphene-based Derivatives for Heterogeneous Catalysts

Graphitic Carbon Nitride-Based Heterogeneous Catalysts

CONCLUSION AND FUTURE PERSPECTIVES

Advances in Carbon Nanomaterials

Shipra Mital Gupta1,*, S.K Sharma2 and Nikita Gupta1

TYPES OF CARBON NANOMATERIALS

Fullerenes

Nanodiamonds

Carbon Quantum Dots

Carbon Nanotubes

TECHNIQUES FOR SYNTHESIS OF CARBON NANOMATERIALS

Arc Discharge

Laser Ablation

Chemical Vapor Deposition

APPLICATIONS OF CARBON NANOMATERIALS

Applications of Fullerenes

Hydrogen Storage

Energy Materials

Applications of Nanodiamonds

Photovoltaic Devices

Thin Film Electronics

Energy Storage Devices

Electrochemical Sensors

Drug Delivery

Applications of Carbon Quantum Dots

White LEDs

Biomedical Applications

Applications of Carbon Nanotubes

Field Emission Devices

Electromechanical Devices

Heat Transfer

Cancer Therapy

Applications of Graphene

Biosensors

Drug Delivery.

TOXICITY OF CARBON NANOMATERIALS

ACKNOWLEDGEMENT

Modelling and Simulations of Nanomaterials

Mansi Sharma1,* and Vishal Sharma2

Growth of Nanoparticles

MODELLING AND SIMULATION

APPROXIMATIONS AND BOUNDARY CONDITIONS

Density Functional Theory

Tight Binding Approximation

Ab Initio Molecular Dynamic

USER-FRIENDLY INTERFACE

DEVICE APPLICABILITY

Prediction of Nanoparticles in the Environment

Photovoltaic Applications of Carbon-Based Nanomaterials

Yogendra Kumar1,*, Asha Panghal2,*, Pandey Rajagopalan3 and Akash Sharma4

CARBON NANOMATERIALS

GRAPHENE-BASED PHOTOVOLTAICS

Graphene as a Transparent Electrode

Graphene as ETL

Graphene as HTL

CARBON NANOTUBES (CNTS) BASED PHOTOVOLTAICS

CNTs as Transparent Electrodes

CNTs as HTL

FULLERENES IN SOLAR CELLS

CONCLUSION AND OUTLOOK

Application of Nanomaterials in Water Purification

Priyanka Yadav1, Sudhir G. Warkar1,* and Anil Kumar1

NANOMATERIALS

Fundamentals of Nanomaterial in Water Treatment or Why Nanomaterials?

TYPES OF NANOMATERIALS FOR WATER PURIFICATION

Metal and Metal Oxide Nanoparticles

Carbon-Based Nanomaterials

Polymer and Hybrid Nanomaterials

Dendrimers-based Nanomaterials

APPLICATION OF NANOMATERIAL IN WATER PURIFICATION

Adsorption-Based Water Purification

Adsorption of Organic Compounds

Adsorption of Phenolic Compounds

Adsorption of Heavy Metals

Adsorption of Pesticides

Adsorption of Microbes

Removal of Organic Compounds

Heavy Metals Removal

Removal of Inorganic Contaminants

Removal of Microbes.

Nano-Membrane Filtration for Wastewater Treatment

MECHANISM OF MEMBRANE FILTRATION

NANOMATERIAL IN MEMBRANE FILTRATION

Removal of Micro-organisms

Removal of Pesticides

CHALLENGES &amp

FUTURE PERSPECTIVE

Rare Earth-based Multiferroic Perovskites and Applications

Huma Khan1, Amir Mehtab1 and Tokeer Ahmad1,*

RARE EARTH-BASED MULTIFERROIC PEROVSKITES: STRUCTURAL ASPECTS AND CLASSIFICATION

MULTIFERROICITY AND MULTIFERROIC MATERIALS

COMPONENTS OF MULTIFERROICITY

Ferroelectricity

Ferromagnetism

Antiferromagnetism

Ferrimagnetism

FABRICATION OF RARE-EARTH MULTIFERROIC PEROVSKITES

Physical Synthesis Methods

Solid-State Reaction

Chemical Vapor Deposition (CVD)

Ball Milling Method

Arc Discharge Method

Chemical Synthesis Methods

Co-precipitation Method

Hydrothermal/Solvothermal Synthesis

Polymeric Citrate Precursor Method

Reverse Micellar Route

Single Crystal Growth Techniques

Floating Zone Method

Flux Method

Molecular Beam Epitaxy (MBE)

Czochralski Method

Bridgman-Stockbarger Method

APPLICATIONS OF RARE EARTH-BASED MULTIFERROIC PEROVSKITES

Hydrogen Production

Energy Harvesting and Conversion

Spintronic, Sensors, Transducers, and Magneto-optical Devices

CHALLENGES AND FUTURE PERSPECTIVES

Graphene Oxide (GO) and Reduced Graphene Oxide (rGO) Based Humidity Sensors

Alfa Sharma1 ,*, Akash Sharma2, Asha Panghal3 and Yogendra Kumar4,*

PREPARATION AND PROPERTIES OF GRAPHENE-BASED MATERIALS

Preparation

Properties

WHY GO/RGO

BASICS TERMINOLOGY IN HUMIDITY SENSING

SENSING MECHANISM IN GO/RGO BASED HUMIDITY SENSORS

ADVANCES IN GO/RGO BASED HUMIDITY SENSORS.

Graphene Oxide (GO) Based Humidity Sensors.

Notes:

Description based on publisher supplied metadata and other sources.

Part of the metadata in this record was created by AI, based on the text of the resource.

ISBN:

9789815256772

9815256777

OCLC:

1463770575