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010   $a1118217675
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100   $a20110808d2012      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aRenewable polymers $esynthesis, processing, and technology /$fedited by Vikas Mittal
205   $a1st ed.
210   $aHoboken, N.J. $cJohn Wiley ;$aSalem, Mass. $cScrivener$dc2012
215   $a1 online resource (504 p.)
300   $aDescription based upon print version of record.
311 08$a9780470938775 
311 08$a0470938773 
320   $aIncludes bibliographical references and index.
327   $aRenewable Polymers: Synthesis, Processing, and Technology; Contents; Preface; List of Contributors; 1. Polymers from Renewable Resources; 1.1 Introduction; 1.2 Naturally Renewable Methylene Butyrolactones; 1.3 Renewable Rosin Acid-Degradable Caprolactone Block Copolymers; 1.4 Plant Oils as Platform Chemicals for Polymer Synthesis; 1.5 Biosourced Stereocontrolled Polytriazoles; 1.6 Polymers from Naturally Occurring Monoterpene; 1.7 Polymerization of Biosourced 2-(Methacryloyloxy)ethyl Tiglate; 1.8 Oxypropylation of Rapeseed Cake Residue; 1.9 Copolymerization of Naturally Occurring Limonene
327   $a1.10 Polymerization of Lactides1.11 Nanocomposites Using Renewable Polymers; 1.12 Castor Oil Based Thermosets; References; 2. Design, Synthesis, Property, and Application of Plant Oil Polymers; 2.1 Introduction; 2.2 Triglyceride Polymers; 2.2.1 Formation and Copolymerization of Monoglycerides and Diglycerides; 2.2.2 Copolymerization of Fatty Acids; 2.2.3 Polymerization of Functionalized Triglycerides; 2.3 Summary; References; 3. Advances in Acid Mediated Polymerizations; 3.1 Introduction; 3.2 Problems Inherent to Cationic Olefin Polymerization
327   $a3.3 Progress Toward Cleaner Cationic Polymerizations3.3.1 Improvements Resulting from Initiator System Design; 3.3.1.1 Progress in Homogeneous Initiator Systems; 3.3.1.2 Developments in Heterogeneous Initiator Systems; 3.4 Environmental Benefits via New Process Conditions; 3.5 Cationic Polymerization of Monomers Derived from Renewable Resources; 3.6 Sustainable Synthesis of Monomers for Cationic Polymerization; References; 4. Olive Oil Wastewater as a Renewable Resource for Production of Polyhydroxyalkanoates; 4.1 Polyhydroxyalkanoates (PHAs): Structure, Properties, and Applications
327   $a4.2 PHA Production Processes Employing Pure Microbial Cultures4.3 PHA Production Processes Employing Mixed Microbial Cultures; 4.3.1 The Acidogenic Fermentation Stage: Key Aspects; 4.3.2 The Mixed Microbial Culture (MMC) Selection Stage; 4.3.3 The PHA Accumulation Stage; 4.4. Olive Oil Mill Effluents (OMEs) as a Possible Feedstock for PHA Production; 4.4.1 Olive Oil Production; 4.4.2 Chemical and Physical Characteristic of OMEs; 4.4.3 Wastewater Treatment and Disposal Alternatives; 4.4.4 Biological Wastewater Treatment; 4.5 OMEs as Feedstock for PHA Production; 4.6 Concluding Remarks
327   $aReferences5. Atom Transfer Radical Polymerization (ATRP) for Production of Polymers from Renewable Resources; 5.1 Introduction; 5.2 Atom Transfer Radical Polymerization (ATRP); 5.2.1 General Considerations; 5.2.2 Kinetics of ATRP; 5.2.3 Macromolecular Architecture; 5.2.4 Choice of Reaction Medium; 5.3 Synthetic Strategies to Develop Functional Material Based on Renewable Resources - Composition, Topologies and Functionalities; 5.3.1 Use of Functional Initiators; 5.3.2 Modified Processes; 5.4 Sustainable Sources for Monomers with a Potential for Making Novel Renewable Polymers
327   $a5.4.1 Plant Oil Derived Monomers -Fatty Acid Acrylates/Methacrylates
330   $a Presents the synthesis, technology and processing details of a large range of polymers derived from renewable resources  It has been a long-term desire to replace polymers from fossil fuels with the more environmentally friendly polymers generated from renewable resources. Now, with the recent advancements in synthesis technologies and the finding of new functional monomers, research in this field has shown strong potential in generating better property polymers from renewable resources. A text describing these advances in synthesis, processing, and technology of such pol
606   $aPlant polymers$xBiotechnology
606   $aPolymerization
606   $aGreen technology
615  0$aPlant polymers$xBiotechnology.
615  0$aPolymerization.
615  0$aGreen technology.
676   $a547/.7
686   $aTEC009010$2bisacsh
701   $aMittal$b Vikas$0859118
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910823215003321
996   $aRenewable polymers$94080824
997   $aUNINA