Applications of layered double hydroxides / Rajib Lochan Goswame and Pinky Saikia, editors.

Format:

Book

Contributor:

Lochan Goswamee, Rajib, editor.

Saikia, Pinky, editor.

Series:

Chemistry research and applications series.

Chemistry research and applications

Language:

English

Subjects (All):

Layered double hydroxides.

Physical Description:

1 online resource (410 pages)

Place of Publication:

New York : Nova Science Publishers, [2021]

Summary:

"Currently, Layered Double Hydroxides (LDH) is a hot area of research on inorganic layered materials. The present book, Applications of Layered Double Hydroxides, edited by Dr. Rjib Lochan Goswamee and Dr. Pinky Saikia, is a collection of articles from various researchers from different parts of the world mainly on structure and property relationships of various types of LDH and their related application prospects. How these application prospects can be related to the most pressing problems of humanity like drug delivery, global warming, green catalysis, electrochemical energy storage and generation etc. are clearly discussed in the articles inside. The book provides a thorough up-to-date review of recent literature on applications of LDH available in the global scientific and technical media. For example, the book lucidly describes the behaviour of LDH nanocarriers in biological fluids, their low cytotoxicity and high levels of cellular internalization, and high drug loading capacity. Similarly, the book examines why hybrid nanocomposites of LDH-MOF are considered promising materials due to their diverse functionality, flexible properties and tailored end-use properties. Likewise, application of LDH in secondary batteries and electro-chemical supercapacitors with a thorough up-to-date review is included in the book. Also, basic research articles on structural properties and measurements of a special class of unique LDH Li-Al-LDHs are included. Editors also have written their own articles on their findings on the prospective application of dispersions of LDH nanocomposites on structured catalysts for green-house gas emission. Overall, the book gives a short glimpse of wonderful opportunities that LDH can provide in solving many global socio-economic problems of today"-- Provided by publisher.

Contents:

Intro

Contents

Preface

Chapter 1

Understanding the Behavior of LDH Nanocarriers in Biological Fluids

Abstract

1. Introduction

2. Applications of LDH-NP as Nanocarriers: Drug and Nucleic Acids Loading

2.1. Strategies for the Synthesis of LDH-NP

2.2. NSAID

2.3. Antimicrobial Agents

2.4. Anticancer Agents

2.5. Nucleic Acids

3. LDH-NP Surface Modification: The Question of Size and Cell Targeting

3.1. Bisphosphonates

3.2. Polyelectrolytes

3.3. Proteins

4. LDH in Biological Fluids: The Challenge of Keeping the Proper Behavior in a Complex Context

4.1. Interaction between Synthetic Identity and Membrane Models

4.2. Protein Corona Formation: The Cross-Talk between the Surface and Protein Corona

4.3. Corona Interactome: PPI as a New Driving Force in Protein Corona Formation

4.4. Interaction with Biological Systems: Cellular Internalization

Conclusion

References

Chapter 2

Synthesis, Characterization and Thermal Behaviour of Lithium Aluminum LDHs Intercalated with Phthalate (Benzene Dicarbonic Acid) - Anions

2. Experimental

2.1. Reagents

2.2. Measurements

2.2.1. XRD Investigations

2.2.2. Thermal Analysis (TG, DSC/DTA)

2.2.3. FTIR Spectroscopy

2.2.4. ICP Analysis

2.2.5. SEM Analysis

2.3. Synthesis

3. Results and Discussion

3.1. PXRD Analysis at 25 C

3.2. TGA/DSC-MS and ICP-OES Analyses

3.2.1. Chemical Analysis of Samples

3.3. FT-IR Spectroscopy

3.4. SEM (EDX) Analysis

3.5. PXRD Investigations at Higher Temperatures

Acknowledgments

Chapter 3

Antimicrobial Applications of Layered Double Hydroxides

2. Interactions of LDH Nanoparticles with Biological Membranes

3. LDH with AM Metal- Containing Layers.

4. LDH as Carriers of Therapeutic/ Bioactive Compounds

4.1. LDH for Delivery of Antibacterial Compounds

4.2. LDH for Delivery of Antiviral Compounds

4.3. LDH for Delivery of Antifungal Compounds

4.4. LDH for Delivery of Antiparasitic Compounds

5. LDH as Adjuvants and Gene Carriers for New Vaccination Systems

6. LDH as Support of NP with AM Activity

7. LDH as Adsorptive Materials for AM Proteins

8. LDH as Catalysts with AM Activity

Conclusion and Prospects

Chapter 4

Application of Layered Double Hydroxides in Secondary Batteries and Electrochemistry Supercapacitors

2. Secondary Batteries and Supercapacitors

2.1. Secondary Batteries

2.2. Supercapacitors

3. Layered Double Hydroxides

4. Application of LDHs in Secondary Batteries

4.1. Alkaline Secondary Electrode Materials

4.2. Nonaqueous Secondary Batteries

5. Application of LDHs as Electrocatalysts

5.1. OER

5.2. ORR

6. Application of LDHs in Supercapacitors

6.1. Co-Based Materials

6.2. Ni-Based Materials

6.3. Ternary LDHs

6.4. Hybridization with Conducting Materials

6.5. Combination with Metal Oxides

6.6. Interlayer Anions

6.7. Structural Stability in Alkaline Electrolytes

Chapter 5

Structure and Properties Correlation with LDH Applications

1. General Considerations on Layered Double Hydroxides

1.1. Common LDH Preparation Procedures

1.2. Specific Preparation Procedures for Targeted Purposes

1.3. Structure and Intrinsic Properties of MgAl-LDH

1.4. Application Correlation with MgAl-LDH Properties

1.5. Structures and Properties of Modified MgAl-LDH

1.6. LDH Basicity and Related Applications

1.7. Biochemical and Biomedical Applications of LDH

1.8. Property Correlation with Organo-LDH Applications.

1.9. Role of Delamination in Organo-LDH Preparation and Applications

Chapter 6

Synthesis and Application of Layered Double Hydroxide-Metal Organic Framework (LDH-MOF) Nanohybrids

2. Synthesis and Structural Analysis of LDH-MOF Nanostructures

2.1. In-Situ Growth of MOF on LDH

2.2. In-Situ Growth of LDH on MOF

2.3. By Mixing the Colloidal Suspensions

3. Applications of LDH-MOF Nanohybrids

3.1. Catalysis

3.2. Adsorption

3.3. Sensing

3.4. Energy Storage

3.5. Application in Fire Safety of Epoxy Resins

Future Outlook

Chapter 7

Clay Gel and Sol-Gel Derived Mixed-Metal Oxide Nano-Sheet Coated Structured Catalyst from Layered Double Hydroxides (LDH) for the Treatment of Greenhouse Gases

2. Various Layered Materials, Their Composition and Structure

3. Applications of LDH- Novel Uses of Aqueous Dispersions of Clay-LDH Composites

3.1. Applications of Dispersions of Clay-LDH Composites for the Treatment of Green-House Gases in Monolithic Reactors

3.2. Applications of Dispersions of Clay-LDH Composites for the Reinforcement of Mechanical Strength of Ceramic Bodies

4. Applications of LDH - Novel Uses of Non-Aqueous Dispersions of Silica-LDH Composites for the Treatment of Green-House Gases in Monolithic Reactors

Acknowledgements

Chapter 8

Applications of Layered Double Hydroxides

2. Synthesis Methods of Layered Double Hydroxides

2.1. Hydrothermal Method

2.2. Solvothermal Method

2.3. Co-Precipitation Methods

2.4. Urea Technique

2.5. Sol-Gel Process

2.6. Microwave Method

3. Physicochemical Characterization

3.1. X-Ray Diffraction (XRD)

3.2. Infrared Characterization.

3.3. Specific Surface Area

3.4. Thermal Analysis

4. LDH Applications

4.1. Environmental Applications

4.1.1. Heavy Metals Removal

4.1.2. Carbon Dioxide Adsorption

4.2. Catalysis and Photocatalysis Applications

4.2.1. Catalysis

4.2.2. Photocatalysis

4.3. Biomedical Applications

4.3.1. Drug Delivery

4.3.2. Enzyme Immobilization

About the Editors

Index

Blank Page.

Notes:

Description based on print version record.

Includes bibliographical references and index.

Other Format:

Print version: Goswamee, Rajib Lochan Applications of Layered Double Hydroxides

ISBN:

9781685073817