LEADER 00000nam a2200349 a 4500 
001    6562838 
005    20130804123113.0 
006    m     o  d         
007    cr un||||||||| 
008    100830s2010    dcua    ob    001 0 eng d 
020    9780841225824 (ebook) 
020    0841225826 (ebook) 
020    9780841225817 (alk. paper) 
020    0841225818 (alk. paper) 
035    (OCoLC)ocn659536142 
040    MUU|beng|cMUU|dCOO|dOCLCQ|dAS 
050  4 TP1180.B55|bG74 2010 
082 04 547/.7|222 
245 00 Green polymer chemistry|h[electronic resource] :
       |bbiocatalysis and biomaterials /|cH.N. Cheng, Richard A. 
       Gross, editors 
260    Washington, DC :|bAmerican Chemical Society,|cc2010 
300    1 online resource :|bill 
490 0  ACS symposium series ;|v1043 
504    Includes bibliographical references and index 
505 0  Green polymer chemistry: biocatalysis and biomaterials -- 
       Novel biobased materials -- Solid or swollen polymer-
       protein hybrid materials -- Biofabrication based on the 
       enzyme-catalyzed coupling and crosslinking of pre-formed 
       biopolymers -- Development of novel soy protein-based 
       polymer blends -- Thermodynamic and microscopy studies of 
       urea-soy protein composites -- Extraction and 
       characterization of sugar beet polysaccharides -- Novel 
       biobased plastics, rubbers, composites, coatings and 
       adhesives from agricultural oils and by-products -- Enzyme
       -nanotube-based composites used for chemical and 
       biological decontamination -- New or improved biocatalysts
       -- Hemin-binding aptamers and aptazymes -- Synthesis of 
       covalently linked enzyme dimers -- Biotransformations 
       using cutinase -- Syntheses of polyesters and 
       polycarbonates -- Biosynthesis of polyhydroxyalkanoates 
       from 4-ketovaleric acid in bacterial cells -- Synthesis of
       functional polycarbonates from renewable resources -- 
       Polymers from biocatalysis: materials with a broad 
       spectrum of physical properties -- Lipase-catalyzed 
       copolymerization of?-pentadecalactone (pdl) and alkyl 
       glycolate: synthesis of poly(pdl-co-ga) -- Chemo-enzymatic
       syntheses of polyester-urethanes -- Enzymatic synthesis 
       and properties of novel biobased elastomers consisting of 
       12-hydroxystearate, itaconate and butane-1,4-diol -- 
       Syntheses of polyamides and polypeptides -- Synthesis of 
       poly(aminoamides) via enzymatic means -- Mechanistic 
       insight in the enzymatic ring-opening polymerization of?-
       propiolactam -- Syntheses and modifictions of 
       polysaccharides -- Production of natural polysaccharides 
       and their analogues via biopathway engineering -- 
       Glycosaminoglycan synthases: catalysts for customizing 
       sugar polymer size and chemistry -- Development and 
       applications of a novel, first-in-class hyaluronic acid 
       from bacillus -- Biocatalytic redox polymerizations -- 
       Enzymatic synthesis of electrically conducting polymers --
       Sustained development in baeyer-villiger biooxidation 
       technology -- Enzymatic hydrolyses and degradations -- 
       Embedding enzymes to control biomaterial lifetime -- 
       Surprisingly rapid enzymatic hydrolysis of poly(ethylene 
       terephthalate) -- Polylactic acid (pla)-degrading 
       microorganisms and pla depolymerases -- Grafting and 
       functionalization reactions -- Green polymer chemistry: 
       enzymatic functionalization of liquid polymers in bulk -- 
       Bio-based and biodegradable aliphatic polyesters modified 
       by a continuous alcoholysis reaction -- Synthesis of 
       grafted polylactic acid and polyhydroxyalkanoate by a 
       green reactive extrusion process 
588    Description based on print version record 
650  0 Biodegradable plastics|vCongresses 
650  0 Environmental chemistry|xIndustrial applications
650  0 Biopolymers|vCongresses 
700 1  Cheng, H. N 
700 1  Gross, Richard A.,|d1957- 
776 08 |iPrint version:|tGreen polymer chemistry.|dWashington, DC
       : American Chemical Society, c2010|z9780841225817|w(DLC) 
856 40 |uhttp://dx.doi.org/10.1021/bk-2010-1043|zeBook(ACS)