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Modern biopolymer sciencebridging th...

Kasapis, Stefan.

Modern biopolymer sciencebridging the divide between fundamental treatise and industrial application /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Modern biopolymer scienceedited by Stefan Kasapis, Ian T. Norton, Johan B. Ubbink.
Reminder of title:	bridging the divide between fundamental treatise and industrial application /
other author:	Ubbink, Johan B.
Published:	Amsterdam ;Elsevier/Academic Press,2009.
Description:	x, 627 p. :ill. ;25 cm.
Subject:	Biopolymers.
Online resource:	An electronic book accessible through the World Wide Web; click for information
ISBN:	9780123741950

Modern biopolymer sciencebridging the divide between fundamental treatise and industrial application /
Modern biopolymer sciencebridging the divide between fundamental treatise and industrial application /[electronic resource] :edited by Stefan Kasapis, Ian T. Norton, Johan B. Ubbink. - 1st ed. - Amsterdam ;Elsevier/Academic Press,2009. - x, 627 p. :ill. ;25 cm.

Includes bibliographical references and index.

Low- and High-Solid Biopolymer/co-Solute Mixtures; Mapping the Different States of Food as a Function of Solids Content and Temperature Using a State Diagram; Microstructural Advances in the Understanding of Carbohydrate Glasses; Molecular Mobility of Bioactive Compounds in Biopolymer Matrices; Hydroccoloids and Medical Chemistry Applications; Fundamentals and Application of Protein Gelation; Biopolymer Composite Theory in Relation to Novel Product Development; Effect of Processing on Biopolymer Interactions; Molecular Theory of Polysaccharide Gels and Applications; Unifying Theory of Molecular Dynamics for Synthetic and Bio-macromolecules across the Viscoelastic Spectrum; Self Assembling Structures; Coacervates as Food Ingredients or Microencapsulation Delivery Systems; Biopolymer Films and Composite Coatings; Applications of Single-Molecule Techniques.

Industrialists developing new food and pharmaceutical products face the challenge of innovation in an increasingly competitive market that must consider incredient cost, product added-value, expectations of a healthy life-style, improved sensory impact, controlled delivery of active compounds and last, but not lease, product stability. While much work has been done to explore, understand, and address these issues, a gap has emerged between recent advances in fundamental knowledge and its direct application to product situations with a growing need for scientific input. Modern Biopolymer Science matches science to application by first acknowledging the differing viewpoints between those working with low-solids and those working with high-solids, and then sharing the expertise of those two camps under a unified framework of materials science. * Real-world utilisation of fundamental science to achieve breakthroughs in product development * Includes a wide range of related aspects of low and high-solids systems for foods and pharmaceuticals * Covers more than bio-olymer science in foods by including biopolymer interactions with bioactive compounds, issues of importance in drug delivery and medicinal chemistry.

Electronic reproduction.
Amsterdam :
Elsevier Science & Technology,
2009.

Mode of access: World Wide Web.

ISBN: 9780123741950

Source: 141225:141368Elsevier Science & Technologyhttp://www.sciencedirect.comSubjects--Topical Terms:

222788
Biopolymers.
Index Terms--Genre/Form:

214472
Electronic books.

LC Class. No.: TP248.65.P62 / M63 2009

Dewey Class. No.: 660.63

Modern biopolymer sciencebridging the divide between fundamental treatise and industrial application /
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245 0 0 $a Modern biopolymer science $h [electronic resource] : $b bridging the divide between fundamental treatise and industrial application / $c edited by Stefan Kasapis, Ian T. Norton, Johan B. Ubbink.
250 $a 1st ed.
260 $a Amsterdam ; $a Boston : $b Elsevier/Academic Press, $c 2009.
300 $a x, 627 p. : $b ill. ; $c 25 cm.
504 $a Includes bibliographical references and index.
505 0 $a Low- and High-Solid Biopolymer/co-Solute Mixtures; Mapping the Different States of Food as a Function of Solids Content and Temperature Using a State Diagram; Microstructural Advances in the Understanding of Carbohydrate Glasses; Molecular Mobility of Bioactive Compounds in Biopolymer Matrices; Hydroccoloids and Medical Chemistry Applications; Fundamentals and Application of Protein Gelation; Biopolymer Composite Theory in Relation to Novel Product Development; Effect of Processing on Biopolymer Interactions; Molecular Theory of Polysaccharide Gels and Applications; Unifying Theory of Molecular Dynamics for Synthetic and Bio-macromolecules across the Viscoelastic Spectrum; Self Assembling Structures; Coacervates as Food Ingredients or Microencapsulation Delivery Systems; Biopolymer Films and Composite Coatings; Applications of Single-Molecule Techniques.
520 $a Industrialists developing new food and pharmaceutical products face the challenge of innovation in an increasingly competitive market that must consider incredient cost, product added-value, expectations of a healthy life-style, improved sensory impact, controlled delivery of active compounds and last, but not lease, product stability. While much work has been done to explore, understand, and address these issues, a gap has emerged between recent advances in fundamental knowledge and its direct application to product situations with a growing need for scientific input. Modern Biopolymer Science matches science to application by first acknowledging the differing viewpoints between those working with low-solids and those working with high-solids, and then sharing the expertise of those two camps under a unified framework of materials science. * Real-world utilisation of fundamental science to achieve breakthroughs in product development * Includes a wide range of related aspects of low and high-solids systems for foods and pharmaceuticals * Covers more than bio-olymer science in foods by including biopolymer interactions with bioactive compounds, issues of importance in drug delivery and medicinal chemistry.
533 $a Electronic reproduction. $b Amsterdam : $c Elsevier Science & Technology, $d 2009. $n Mode of access: World Wide Web. $n System requirements: Web browser. $n Title from title screen (viewed on Oct. 8, 2009). $n Access may be restricted to users at subscribing institutions.
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700 1 $a Kasapis, Stefan. $3 454898
700 1 $a Norton, Ian T. $3 454899
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776 1 $c Original $z 9780123741950 $z 0123741955 $w (OCoLC)297146026
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