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000823673 019__ $$a1004725756
000823673 020__ $$a9789811065149$$q(electronic book)
000823673 020__ $$a9811065144$$q(electronic book)
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000823673 1001_ $$aBandyopadhyay, Abhijit,$$eauthor.
000823673 24510 $$aHyperbranched polymers for biomedical applications /$$cAbhijit Bandyopadhyay, Srijoni Sengupta, Tamalika Das.
000823673 264_1 $$aSingapore :$$bSpringer,$$c[2018].
000823673 300__ $$a1 online resource.
000823673 336__ $$atext$$btxt$$2rdacontent
000823673 337__ $$acomputer$$bc$$2rdamedia
000823673 338__ $$aonline resource$$bcr$$2rdacarrier
000823673 4901_ $$aSpringerBriefs on polymer an composite materials
000823673 504__ $$aIncludes bibliographical references.
000823673 5050_ $$aAbout the Authors; Abstract; 1 Introduction; 1.1 Introduction to the World of Polymers; 1.2 Conventional Polymers with Special Reference to Architectural Polymers; 1.3 Dendrimers: Advantages and Disadvantages; 1.4 Introduction to Hyperbranched Polymers; 1.5 Conclusion; References; 2 Part I-Synthesis of Hyperbranched Polymers: Step-Growth Methods; 2.1 Introduction to Theoretical Approaches in Hyperbranched Polymerization; 2.2 Hyperbranched Polymers from ABx-Type Monomers; 2.2.1 Carbon-Carbon Coupling Reactions; 2.2.1.1 Transition Metal Mediated C-C Coupling Reactions
000823673 5058_ $$a2.2.1.2 Polycycloaddition Type C-C Coupling Reactions- Metal Free and Metal Catalyzed Reaction Pathway2.2.1.3 C-C Coupling Reactions via Nucleophilic Substitution Reactions; 2.2.1.4 C-C Coupling Reactions via Michael Addition Reactions; 2.2.2 Carbon-Hetero Atom Coupling Reactions; 2.2.2.1 C-N Coupling Reactions via Condensation of Amines and Acid Derivatives; 2.2.2.2 Click Chemistry in C-N/C-S Coupling Reactions; 2.2.2.3 C-O Coupling Reactions; 2.2.2.4 Enzyme-Catalyzed Polymerization; 2.3 Hyperbranched Polymers from A2 + B3 Monomer Pairs and Other Couple Monomer Methodologies
000823673 5058_ $$a2.4 Drawbacks of Hyperbranched Polymerization Techniques and Possible Remedies2.5 Conclusion; References; 3 Part II -- Synthesis of Hyperbranched Polymers: Mixed Chain-Growth and Step-Growth Methods; 3.1 Introduction to Simultaneous Step- and Chain-Growth Methodologies; 3.2 Radical Polymerization; 3.3 Proton Transfer Polymerization; 3.4 Self-Condensing Vinyl Polymerization/Copolymerization, Self-Condensing Ring Opening Polymerization and Controlled/Living Polymerization; 3.5 Hypergrafting; 3.5.1 Homogeneous Grafting -- Hyperbranched-Graft-Hyperbranched Copolymers
000823673 5058_ $$a3.5.2 Homogeneous Grafting -- Linear-Graft-Hyperbranched Copolymers3.5.3 Homogeneous Grafting -- Linear-Block-Hyperbranched Copolymers; 3.5.4 Heterogeneous Grafting; 3.5.5 Hypergrafting onto Living Cells; 3.6 Conclusion; References; 4 Structure-Property Relationship of Hyperbranched Polymers; 4.1 Introduction to Intrinsic Properties of Hyperbranched Polymers; 4.2 Degree of Branching; 4.2.1 Determination of DB; 4.2.2 Methods to Determine DB; 4.2.2.1 Direct Method; 4.2.2.2 Indirect Method; 4.3 Influence of the Branching Architecture on the End Properties
000823673 5058_ $$a4.4 Solution Properties with Special Reference to Hyperbranched Architecture4.5 Molecular Mass and Molar Mass Distribution; 4.6 Bulk Properties; 4.6.1 Thermal Properties; 4.6.2 Rheological Properties; 4.7 Special Properties Related to Latest Biological Applications; 4.7.1 Biodegradability and Biocompatibility of Hyperbranched Polymers; 4.7.2 Self-Assembly of the Hyperbranched Polymers; 4.7.3 Encapsulation by Hyperbranched Polymers; 4.8 Conclusion; References; 5 Latest Biomedical Applications of Hyperbranched Polymers: Part 1: As Delivery Vehicle
000823673 506__ $$aAccess limited to authorized users.
000823673 520__ $$aThis book presents a comprehensive study on a new class of branched polymers, known as hyperbranched polymers (HBPs). It discusses in detail the synthesis strategies for these particular classes of polymers as well as biocompatible and biodegradable HBPs, which are of increasing interest to polymer technologists due to their immense potential in biomedical applications. The book also describes the one-pot synthesis technique for HBPs, which is feasible for large-scale production, as well as HBPs? structure-property relationship, which makes them superior to their linear counterparts. The alterable functional groups present at the terminal ends of the branches make HBPs promising candidates in the biomedical domain, and the book specifically elaborates on the suitable characteristic properties of each of the potential biological HBPs? applications. As such, the book offers a valuable reference guide for all scientists and technologists who are interested in using these newly developed techniques to achieve faster and better treatments.
000823673 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed September 28, 2017).
000823673 650_0 $$aBranched polymers.
000823673 650_0 $$aPolymers in medicine.
000823673 650_0 $$aBiomedical materials.
000823673 7001_ $$aSengupta, Srijoni,$$eauthor.
000823673 7001_ $$aDas, Tamalika,$$eauthor.
000823673 77608 $$iPrint version: $$z9811065136$$z9789811065132$$w(OCoLC)1000041894
000823673 830_0 $$aSpringerBriefs on polymer and composite materials.
000823673 852__ $$bebk
000823673 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-981-10-6514-9$$zOnline Access$$91397441.1
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