Handbook of Encapsulation and Controlled Release
Herausgeber: Mishra, Munmaya
Handbook of Encapsulation and Controlled Release
Herausgeber: Mishra, Munmaya
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Written at a level comprehensible to non-experts, this handbook covers the current state of encapsulation and controlled released technologies, presenting the fundamental processes involved and exploring how to use those processes for different applications in various industries. It is a comprehensive source of technical information and current practices of encapsulation in research and industry, providing a much-needed authoritative reference for continued research and development in encapsulation and controlled release technologies.
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Written at a level comprehensible to non-experts, this handbook covers the current state of encapsulation and controlled released technologies, presenting the fundamental processes involved and exploring how to use those processes for different applications in various industries. It is a comprehensive source of technical information and current practices of encapsulation in research and industry, providing a much-needed authoritative reference for continued research and development in encapsulation and controlled release technologies.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Apple Academic Press
- Seitenzahl: 1512
- Erscheinungstermin: 11. November 2015
- Englisch
- Abmessung: 259mm x 184mm x 73mm
- Gewicht: 2296g
- ISBN-13: 9781482232325
- ISBN-10: 1482232324
- Artikelnr.: 42462142
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Apple Academic Press
- Seitenzahl: 1512
- Erscheinungstermin: 11. November 2015
- Englisch
- Abmessung: 259mm x 184mm x 73mm
- Gewicht: 2296g
- ISBN-13: 9781482232325
- ISBN-10: 1482232324
- Artikelnr.: 42462142
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Munmaya Mishra, Ph.D., is a polymer scientist who has worked in the industry for more than 30 years. He has been engaged in research, management, technology innovations, and product development. He currently holds research and technical management responsibility at Altria Research Center and serves as the Editor-in-Chief of three Taylor & Francis' renowned polymer journals. He has contributed immensely to multiple aspects of polymer applications, including encapsulation and controlled release technologies. He has authored and coauthored hundreds of scientific articles, is the author or editor of eight books, and holds over 70 US patents, over 50 US patent-pending applications, and over 100 world patents. He has received numerous recognitions and awards. He is the editor-in-chief of the recently published 11-volume Encyclopedia of Biomedical Polymers and Polymeric Biomaterials and the Encyclopedia of Polymer Applications. He founded the International Society of Biomedical Polymers and Polymeric Biomaterials as well as a scientific meeting titled Advanced Polymers via Macromolecular Engineering, which has gained international recognition and is under the sponsorship of the International Union of Pure and Applied Chemistry.
FUNDAMENTALS. Overview of Encapsulation and Controlled Release. PROCESSES.
Process-Selection Criteria. Microencapsulation by Spray Drying. Spray
Drying and Its Application in Food Processing. Encapsulation via Spray
Chilling/Cooling/Congealing. Encapsulation via Spinning Disk Technology.
Encapsulation via Fluidized Bed Coating Technology. Encapsulation via
Pan-Coating. Microencapsulation by Dripping and Jet Break-Up.
Microencapsulation by Annular Jet Process. Encapsulation via Hot-Melt
Extrusion. Microencapsulation with Coacervation. Encapsulation via
Microemulsion. Ionotropic Gelation and Polyelectrolyte Complexation
Technique: Novel Approach to Drug Encapsulation. Microencapsulation via
Interfacial Polymerization. Microencapsulation via In Situ Polymerization.
Microencapsulation with Miniemulsion Technology. Silica-Based Sol-Gel
Microencapsulation and Applications. Microencapsulation by Phase Inversion
Precipitation. Microfluidic Encapsulation Process. Encapsulation Process in
Granulation Technology. Encapsulation via Electrohydrodynamic Atomization
Spray Technology (Electrospray). Encapsulation Process: Pulsed Combustion
Spray Drying. Supercritical Fluid Technology for Encapsulation.
Melt-Dispersion Technique for Encapsulation. INGREDIENTS. Materials of
Natural Origin for Encapsulation. Cellulose Ethers: Applications.
Cellulose-Based Biopolymers: Formulation and Delivery Applications.
Starch-Based Polymeric Biomaterial: Drug Delivery. Biodegradable Polymers:
Drug Delivery Applications. CHARACTERIZATION. Encapsulation Field Polymers:
Fourier Transform Infrared Spectroscopy (FTIR). APPLICATIONS. Encapsulation
Technologies for Modifying Food Performance. Microencapsulation:
Probiotics. Organogels as Food Delivery Systems. ß-Lactoglobulin: Bioactive
Nutrients Delivery. Encapsulation of Polyphenolics. Encapsulation of
Bioactive Compounds. Encapsulation of Flavors, Nutraceuticals, and
Antibacterials. Encapsulation of Aroma. Molecular (Cyclodextrin)
Encapsulation of Volatiles and Essential Oils. Microencapsulation:
Artificial Cells. Cell Encapsulation. Cell Immobilization Technologies for
Applications in Alcoholic Beverages. Enzyme Immobilization in Biodegradable
Polymers for Biomedical Applications. Emulsion-Solvent Removal System for
Drug Delivery. Organogels in Controlled Drug Delivery. Microparticulate
Drug Delivery Systems. Colloid Drug Delivery Systems. Melt Extrusion:
Pharmaceutical Applications. Nanoparticles: Biomaterials for Drug Delivery.
Polymer Systems for Ophthalmic Drug Delivery. Drug Delivery Systems: Oral
Mucosal. Polymeric Biomaterials for Controlled Drug Delivery. Nanogels:
Chemical Approaches to Preparation. Electrospinning Technology: Polymeric
Nanofiber Drug Delivery. Polyelectrolyte Complexes: Drug Delivery
Technology. Polymeric Nano/Microparticles for Oral Delivery of Proteins and
Peptides. Vegetable Oil-Based Formulations for Controlled Drug Delivery.
Introduction to Commercial Microencapsulation. Stable Core-Shell
Microcapsules for Industrial Applications. Microencapsulation Applications
in Food Packaging. Microencapsulation of Phase Change Materials.
Process-Selection Criteria. Microencapsulation by Spray Drying. Spray
Drying and Its Application in Food Processing. Encapsulation via Spray
Chilling/Cooling/Congealing. Encapsulation via Spinning Disk Technology.
Encapsulation via Fluidized Bed Coating Technology. Encapsulation via
Pan-Coating. Microencapsulation by Dripping and Jet Break-Up.
Microencapsulation by Annular Jet Process. Encapsulation via Hot-Melt
Extrusion. Microencapsulation with Coacervation. Encapsulation via
Microemulsion. Ionotropic Gelation and Polyelectrolyte Complexation
Technique: Novel Approach to Drug Encapsulation. Microencapsulation via
Interfacial Polymerization. Microencapsulation via In Situ Polymerization.
Microencapsulation with Miniemulsion Technology. Silica-Based Sol-Gel
Microencapsulation and Applications. Microencapsulation by Phase Inversion
Precipitation. Microfluidic Encapsulation Process. Encapsulation Process in
Granulation Technology. Encapsulation via Electrohydrodynamic Atomization
Spray Technology (Electrospray). Encapsulation Process: Pulsed Combustion
Spray Drying. Supercritical Fluid Technology for Encapsulation.
Melt-Dispersion Technique for Encapsulation. INGREDIENTS. Materials of
Natural Origin for Encapsulation. Cellulose Ethers: Applications.
Cellulose-Based Biopolymers: Formulation and Delivery Applications.
Starch-Based Polymeric Biomaterial: Drug Delivery. Biodegradable Polymers:
Drug Delivery Applications. CHARACTERIZATION. Encapsulation Field Polymers:
Fourier Transform Infrared Spectroscopy (FTIR). APPLICATIONS. Encapsulation
Technologies for Modifying Food Performance. Microencapsulation:
Probiotics. Organogels as Food Delivery Systems. ß-Lactoglobulin: Bioactive
Nutrients Delivery. Encapsulation of Polyphenolics. Encapsulation of
Bioactive Compounds. Encapsulation of Flavors, Nutraceuticals, and
Antibacterials. Encapsulation of Aroma. Molecular (Cyclodextrin)
Encapsulation of Volatiles and Essential Oils. Microencapsulation:
Artificial Cells. Cell Encapsulation. Cell Immobilization Technologies for
Applications in Alcoholic Beverages. Enzyme Immobilization in Biodegradable
Polymers for Biomedical Applications. Emulsion-Solvent Removal System for
Drug Delivery. Organogels in Controlled Drug Delivery. Microparticulate
Drug Delivery Systems. Colloid Drug Delivery Systems. Melt Extrusion:
Pharmaceutical Applications. Nanoparticles: Biomaterials for Drug Delivery.
Polymer Systems for Ophthalmic Drug Delivery. Drug Delivery Systems: Oral
Mucosal. Polymeric Biomaterials for Controlled Drug Delivery. Nanogels:
Chemical Approaches to Preparation. Electrospinning Technology: Polymeric
Nanofiber Drug Delivery. Polyelectrolyte Complexes: Drug Delivery
Technology. Polymeric Nano/Microparticles for Oral Delivery of Proteins and
Peptides. Vegetable Oil-Based Formulations for Controlled Drug Delivery.
Introduction to Commercial Microencapsulation. Stable Core-Shell
Microcapsules for Industrial Applications. Microencapsulation Applications
in Food Packaging. Microencapsulation of Phase Change Materials.
FUNDAMENTALS. Overview of Encapsulation and Controlled Release. PROCESSES.
Process-Selection Criteria. Microencapsulation by Spray Drying. Spray
Drying and Its Application in Food Processing. Encapsulation via Spray
Chilling/Cooling/Congealing. Encapsulation via Spinning Disk Technology.
Encapsulation via Fluidized Bed Coating Technology. Encapsulation via
Pan-Coating. Microencapsulation by Dripping and Jet Break-Up.
Microencapsulation by Annular Jet Process. Encapsulation via Hot-Melt
Extrusion. Microencapsulation with Coacervation. Encapsulation via
Microemulsion. Ionotropic Gelation and Polyelectrolyte Complexation
Technique: Novel Approach to Drug Encapsulation. Microencapsulation via
Interfacial Polymerization. Microencapsulation via In Situ Polymerization.
Microencapsulation with Miniemulsion Technology. Silica-Based Sol-Gel
Microencapsulation and Applications. Microencapsulation by Phase Inversion
Precipitation. Microfluidic Encapsulation Process. Encapsulation Process in
Granulation Technology. Encapsulation via Electrohydrodynamic Atomization
Spray Technology (Electrospray). Encapsulation Process: Pulsed Combustion
Spray Drying. Supercritical Fluid Technology for Encapsulation.
Melt-Dispersion Technique for Encapsulation. INGREDIENTS. Materials of
Natural Origin for Encapsulation. Cellulose Ethers: Applications.
Cellulose-Based Biopolymers: Formulation and Delivery Applications.
Starch-Based Polymeric Biomaterial: Drug Delivery. Biodegradable Polymers:
Drug Delivery Applications. CHARACTERIZATION. Encapsulation Field Polymers:
Fourier Transform Infrared Spectroscopy (FTIR). APPLICATIONS. Encapsulation
Technologies for Modifying Food Performance. Microencapsulation:
Probiotics. Organogels as Food Delivery Systems. ß-Lactoglobulin: Bioactive
Nutrients Delivery. Encapsulation of Polyphenolics. Encapsulation of
Bioactive Compounds. Encapsulation of Flavors, Nutraceuticals, and
Antibacterials. Encapsulation of Aroma. Molecular (Cyclodextrin)
Encapsulation of Volatiles and Essential Oils. Microencapsulation:
Artificial Cells. Cell Encapsulation. Cell Immobilization Technologies for
Applications in Alcoholic Beverages. Enzyme Immobilization in Biodegradable
Polymers for Biomedical Applications. Emulsion-Solvent Removal System for
Drug Delivery. Organogels in Controlled Drug Delivery. Microparticulate
Drug Delivery Systems. Colloid Drug Delivery Systems. Melt Extrusion:
Pharmaceutical Applications. Nanoparticles: Biomaterials for Drug Delivery.
Polymer Systems for Ophthalmic Drug Delivery. Drug Delivery Systems: Oral
Mucosal. Polymeric Biomaterials for Controlled Drug Delivery. Nanogels:
Chemical Approaches to Preparation. Electrospinning Technology: Polymeric
Nanofiber Drug Delivery. Polyelectrolyte Complexes: Drug Delivery
Technology. Polymeric Nano/Microparticles for Oral Delivery of Proteins and
Peptides. Vegetable Oil-Based Formulations for Controlled Drug Delivery.
Introduction to Commercial Microencapsulation. Stable Core-Shell
Microcapsules for Industrial Applications. Microencapsulation Applications
in Food Packaging. Microencapsulation of Phase Change Materials.
Process-Selection Criteria. Microencapsulation by Spray Drying. Spray
Drying and Its Application in Food Processing. Encapsulation via Spray
Chilling/Cooling/Congealing. Encapsulation via Spinning Disk Technology.
Encapsulation via Fluidized Bed Coating Technology. Encapsulation via
Pan-Coating. Microencapsulation by Dripping and Jet Break-Up.
Microencapsulation by Annular Jet Process. Encapsulation via Hot-Melt
Extrusion. Microencapsulation with Coacervation. Encapsulation via
Microemulsion. Ionotropic Gelation and Polyelectrolyte Complexation
Technique: Novel Approach to Drug Encapsulation. Microencapsulation via
Interfacial Polymerization. Microencapsulation via In Situ Polymerization.
Microencapsulation with Miniemulsion Technology. Silica-Based Sol-Gel
Microencapsulation and Applications. Microencapsulation by Phase Inversion
Precipitation. Microfluidic Encapsulation Process. Encapsulation Process in
Granulation Technology. Encapsulation via Electrohydrodynamic Atomization
Spray Technology (Electrospray). Encapsulation Process: Pulsed Combustion
Spray Drying. Supercritical Fluid Technology for Encapsulation.
Melt-Dispersion Technique for Encapsulation. INGREDIENTS. Materials of
Natural Origin for Encapsulation. Cellulose Ethers: Applications.
Cellulose-Based Biopolymers: Formulation and Delivery Applications.
Starch-Based Polymeric Biomaterial: Drug Delivery. Biodegradable Polymers:
Drug Delivery Applications. CHARACTERIZATION. Encapsulation Field Polymers:
Fourier Transform Infrared Spectroscopy (FTIR). APPLICATIONS. Encapsulation
Technologies for Modifying Food Performance. Microencapsulation:
Probiotics. Organogels as Food Delivery Systems. ß-Lactoglobulin: Bioactive
Nutrients Delivery. Encapsulation of Polyphenolics. Encapsulation of
Bioactive Compounds. Encapsulation of Flavors, Nutraceuticals, and
Antibacterials. Encapsulation of Aroma. Molecular (Cyclodextrin)
Encapsulation of Volatiles and Essential Oils. Microencapsulation:
Artificial Cells. Cell Encapsulation. Cell Immobilization Technologies for
Applications in Alcoholic Beverages. Enzyme Immobilization in Biodegradable
Polymers for Biomedical Applications. Emulsion-Solvent Removal System for
Drug Delivery. Organogels in Controlled Drug Delivery. Microparticulate
Drug Delivery Systems. Colloid Drug Delivery Systems. Melt Extrusion:
Pharmaceutical Applications. Nanoparticles: Biomaterials for Drug Delivery.
Polymer Systems for Ophthalmic Drug Delivery. Drug Delivery Systems: Oral
Mucosal. Polymeric Biomaterials for Controlled Drug Delivery. Nanogels:
Chemical Approaches to Preparation. Electrospinning Technology: Polymeric
Nanofiber Drug Delivery. Polyelectrolyte Complexes: Drug Delivery
Technology. Polymeric Nano/Microparticles for Oral Delivery of Proteins and
Peptides. Vegetable Oil-Based Formulations for Controlled Drug Delivery.
Introduction to Commercial Microencapsulation. Stable Core-Shell
Microcapsules for Industrial Applications. Microencapsulation Applications
in Food Packaging. Microencapsulation of Phase Change Materials.