Synthesis of Nanomaterials / edited by Felipe López-Saucedo.

Format:

Book

Contributor:

López-Saucedo, Felipe, editor.

Series:

Frontiers in Nanomedicine Series

Frontiers in Nanomedicine Series ; Volume 3

Language:

English

Subjects (All):

Nanostructured materials.

Physical Description:

1 online resource (279 pages)

Edition:

First edition.

Place of Publication:

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

Summary:

Synthesis of Nanomaterials is a beginner's guide to the synthesis and characterization of biomaterials for medical devices and implants. It presents 8 chapters explaining the use of biomaterials in medicine and pharmacology. The concepts are explained with the guidance of specialists who present the principal techniques and methods to obtain high-performance polymers and composite materials. Starting with an introduction to the subject, the book explains nanomaterials synthesis and progresses towards engineering applications. The chapters also cover modern biomaterials such as stimuli-responsive biomaterials, hydrogels, and self-healing materials. One chapter is dedicated to computational and theoretical techniques in biomedicine and a final chapter covering microencapsulation for advanced drug delivery rounds up the contents. Synthesis of Nanomaterials is a primary reference book for undergraduate and graduate students as well as professors involved in multidisciplinary research and teaching programs.

Contents:

Cover

Title

Copyright

End User License Agreement

Contents

Preface

Dedication

List of Contributors

Biomaterials Applied to Medical Devices and Pharmacy

Tri-Dung Ngo1,*

INTRODUCTION

CLASSIFICATION

ADVANTAGES AND DISADVANTAGES OF BIOMATERIALS AND THEIR USES

REQUIREMENTS FOR BIOMATERIALS IN MEDICAL DEVICES AND PHARMACY

BIOMATERIALS' MANUFACTURING AND MARKET

Electrospinning

Additive Manufacturing

CONCLUSION

CONSENT FOR PUBLICATION

CONFLICT OF INTEREST

ACKNOWLEDGEMENT

REFERENCES

Material Synthesis, Structures and Characterization

Luis A. Camacho Cruz1, Marlene A. Velazco Medel1, Luis R. Ortega Valdovinos2, Angélica Cruz Gómez1 and Emilio Bucio1,*

POLYMERS RELEVANT TO MEDICAL APPLICATIONS

Natural Polymers

Polysaccharides

Chitosan

Cellulose

Alginates

Hyaluronic Acid

Polypeptides

Collagen and Gelatin

Polyisoprene

Synthetic Polymers

Polyethylene Glycol

Poly(Lactic-co-Glycolic Acid)

Polysiloxanes

Polycaprolactone

Polyacrylic and Derivatives

Poly(Ether-Etherketone)

Polyurethane

Polyethylene

Polytetrafluoroethylene

Polyamides

APPLICATIONS OF POLYMERS IN MEDICINE

Polymeric Drug Delivery Systems

Stimuli-responsive Polymers for Drug Delivery

Polymers for Tissue Engineering

Hemocompatible Polymeric Materials

Tissue Engineering

Polymeric Implants

Absorbable Polymers

Non-absorbable Polymers

Polymers in Cardiology

Polymeric Cardiac Stents

Polymeric Tissue Substitutes

Polymers in Ophthalmology

Contact Lenses

Intraocular Implants

Polymers in Nephology

Use of Novel Materials for Catheters and Stents

Polymer Coating of Catheters and Stents

Polymers in Dentistry

LIST OF ABBREVIATIONS

ACKNOWLEDGEMENTS.

REFERENCES

Nanoengineering for Biomedical Devices

David Romero-Fierro1,3,*, Moises Bustamante-Torres2,3, Sophía Anchalí1 and Emilio Bucio3,*

Brief Review of the Development of Biomaterials

FUNDAMENTALS OF NANOENGINEERING APPLIED TO BIOMEDI- CAL DEVICES

Nanomaterials

Nanomedicine

Biocompatibility

SYNTHESIS OF NANOMATERIALS APPLIED TO BIOMEDICINE

Polymeric Materials

Emulsion Diffusion Method

Solvent Emulsion Evaporation Method

Double Emulsion Solvent Evaporation Method

Micro-emulsion Polymerization

Nanoprecipitation Method

Coacervation Method

Polymerization Method

Ionic Gelation Method

Nanoparticles from Supercritical Fluid

Molecular Self-assembling

Iron Oxide Nanoparticles

Co-precipitation Method

Thermal Decomposition

Microemulsion

Hydrothermal Synthesis

Sonochemical Synthesis

Synthesis of Metallic Nanoparticles

Top-down Methods

Bottom-up Methods

Liquid-state Synthesis Methods

Gas Phase Methods

Biological Method

COMMON CHARACTERIZATION TECHNIQUES

Scanning Electron Microscopy

Transmission Electron Microscopy

Atomic Force Microscopy

UV-Vis Spectroscopy

X-ray-based Techniques

Dynamic Light Scattering

Zeta Potential

Aerodynamic Particles Sizer

APPLICATIONS OF NANOENGINEERING IN MEDICINE

Diagnosis

Disinfection

Nervous System

Implants and Tissue Engineering

Treatment of Skin Wounds

Metal and Metal Oxide Nanomaterials

Non-metallic Nanomaterials

Drug Delivery

Regenerative Medicine

Organic and Polymeric Nanomaterials

Inorganic Nanomaterials

ETHICS AND NANOENGINEERING

ACKNOWLEDGEMENTS

Stimuli-responsive Biomaterials with Pharmacological Applications.

Julián E. Sánchez-Velandia1,*, David Valverde2, Raul Porcar3 and Aída L. Villa4

SYNTHESIS OF BIOPOLYMERS

Conventional Synthesis

Sequence-controlled Polymers

Other Chemical Methodologies

APPLICATIONS

Hydrogels and Nanohydrogels

Moises Bustamante-Torres1,2,*, David Romero-Fierro2,3, Bryan Chiguano-Tapia3, Estefani Chichande-Proaño4 and Emilio Bucio2

HYDROGEL

Properties

CLASSIFICATION OF HYDROGELS

Synthesis of Hydrogels

Physical Cross-Linking

Chemical Cross-Linking

Interpenetrating Polymer Networks

Types of Hydrogels

Smart Hydrogels

Nanocomposite Hydrogels

NANOGELS

Nanogel Functionalization

SYNTHESIS OF NANOGELS

Nanogels Synthesized using Polymer Cross-Linking

Chemical Cross-Linking Based on Polyaddition Reactions

Cross-linking Induced by Irradiation

Nanogels Synthesized by Cross-Linking Polymerization of Monomers

Precipitation Polymerization

HYDROGEL AND NANOGEL CHARACTERIZATION METHODS

Light Scattering

Gel Permeation Chromatography

Viscosimetry

Differential Scanning Calorimetry

Microscopy

Spectroscopies

Limit Swelling

Self-healing and Regenerative Materials

Lorena Duarte-Peña1,* and Emilio Bucio1

HISTORY: SELF-HEALING MATERIALS OVER TIME

EXTRINSIC SELF-HEALING MATERIALS

Encapsulated Self-healing Systems

Vascular Network Self-healing Systems

INTRINSIC SELF-HEALING MATERIALS

Dynamic Covalent Bond-based Materials

C=N Dynamic Covalent Bonds

Disulfide Bonds

C=C Dynamic Covalent Bonds

B-O Dynamic Covalent Bonds.

Non-covalent Interactions of Self-healing Materials

Ionic Interactions-based Self-healing Materials

Van der Waals Forces-based Self-healing Materials

Host-Guest Interaction-based Self-healing Materials

Combined Self-healing Systems

Computational and Theoretical Techniques in Biomedicine

Saikat Mukherjee1,*, W. Sobhachandra Singh1 and Sumita Banerjee2

History of Computational Biomedicine

VIRTUAL PHYSIOLOGICAL HUMAN

OTHER EXAMPLES OF COMPUTATIONAL BIOMEDICINE

COMPUTATIONAL INTELLIGENCE AND ITS APPLICATIONS IN BIOMEDICINE

Role of Bioinformatics in Biomedicine

Computational Intelligence

Algorithms Contributing to Computational Intelligence

Computational Intelligence in Understanding Gene Expression

Computational Techniques in Analysis of DNA Microarray

Analysis of Protein Sequence Using Computational Intelligence

Gene Selection Using Computational Intelligence

Computational Intelligence in Protein Structure Prediction

Computational Tools in Human Genetics

Microencapsulation

Anh Thuy Vu1 and Tuyen Chan Kha1,*

BIOACTIVE COMPOUNDS AS CORE MATERIALS

WALL MATERIALS

Alginate

Gum

Carrageenan

Starch

Pectin

Gelatin

Wax

Combination of Wall Materials

ENCAPSULATION TECHNIQUES

Preparation of Formulation

Encapsulation Method

Physical Methods

Chemical Methods

Physicochemical Methods

Release Rate and Release Mechanisms

Physical Characterization of Encapsulated Products

CONSENT FOR PUBLICATION.

CONFLICT OF INTEREST

Subject Index

Back Cover.

Notes:

Description based on publisher supplied metadata and other sources.

Description based on print version record.

Includes bibliographical references.

ISBN:

9789815136920

9815136925

OCLC:

1391441423