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Green Polymer Chemistry: Biobased Materials and Biocatalysis [Hardback]

Edited by (Research Chemist, Southern Regional Research Center, Agricultural Research Service, U.S. Department of Agriculture), Edited by (Research Scientist, Michigan Molecular Institute), Edited by (Constellation Chaired Professor, Rensselaer Polytechnic Institute)
  • Formāts: Hardback, 512 pages, height x width x depth: 231x161x32 mm, weight: 822 g, 249
  • Sērija : ACS Symposium Series
  • Izdošanas datums: 30-Jun-2016
  • Izdevniecība: Oxford University Press Inc
  • ISBN-10: 084123065X
  • ISBN-13: 9780841230651
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Green Polymer Chemistry: Biobased Materials and BiocatalysisPalielināt
  • Formāts: Hardback, 512 pages, height x width x depth: 231x161x32 mm, weight: 822 g, 249
  • Sērija : ACS Symposium Series
  • Izdošanas datums: 30-Jun-2016
  • Izdevniecība: Oxford University Press Inc
  • ISBN-10: 084123065X
  • ISBN-13: 9780841230651
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780841230651.html
Keywords:
Green chemistry is the design of chemical products and processes that reduce or eliminate the use or generation of hazardous substances. Green polymer chemistry is an extension of green chemistry to polymer science and engineering. Developments in this area have been stimulated by health and environmental concerns, interest in sustainability, desire to decrease the dependence on petroleum, and opportunities to design and produce "green" products and processes. Major advances include new uses of biobased feedstock, green reactions, green processing methodologies, and green polymeric products.

A current feature of green polymer chemistry is that it is both global and multidisciplinary. Thus, publications in this field are spread out over different journals in different countries. Moreover, a successful research effort may involve collaborations of people in various disciplines, such as organic chemistry, polymer chemistry, material science, chemical engineering, biochemistry, molecular biology, microbiology, enzymology, toxicology, environmental science, and analytical chemistry.

This book combines the major interdisciplinary research in this field and is targeted for scientists, engineers, and students, who are involved or interested in green polymer chemistry. These may include chemists, biochemists, material scientists, chemical engineers, microbiologists, molecular biologists, enzymologists, toxicologists, environmental scientists, and analytical chemists. It can be a textbook for a course on green chemistry and also a reference book for people who need information on specific topics involving biocatalysis and biobased materials.
Preface xi
1 Green Polymer Chemistry: Some Recent Developments and Examples
1(16)
H. N. Cheng
Richard A. Gross
Patrick B. Smith
Enzymatic and Chemo-enzymatic Approaches
2 Green Polymer Chemistry: Enzyme-Catalyzed Polymer Functionalization
17(10)
Judit E. Puskas
Marcela Castano
Attila L. Gergely
3 Chemoenzymatic Synthesis and Characterization of Polyester-Urethanes Bearing Amino-Acids Moieties
27(14)
Karla A. Barrera-Rivera
Angel Marcos-Fernandez
Antonio Martinez Richa
4 Chemo-enzymatic Synthesis, Derivatizations, and Polymerizations of Renewable Phenolic Monomers Derived from Ferulic Acid and Biobased Polyols: An Access to Sustainable Copolyesters, Poly(ester-urethane)s, and Poly(ester-alkenamer)s
41(28)
Florian Pion
Armando Felix Reano
Mouandhoime Zahahe Oulame
Imane Barbara
Amandine Lea Flourat
Paul-Henri Ducrot
Florent Allais
5 Emerging Enzyme-Based Technologies for Wastewater Treatment
69(18)
Andrew J. Maloney
Chenbo Dong
Alan S. Campbell
Cerasela Zoica Dinu
6 Enzymatic Synthesis of Non-Natural Oligo- and Polysaccharides by Phosphorylase-Catalyzed Glycosylations Using Analogue Substrates
87(14)
Jun-ichi Kadokawa
7 Water-Insoluble Glucans from Sucrose via Glucansucrases. Factors Influencing Structures and Yields
101(12)
Gregory L. Cote
Christopher D. Skory
8 Biosynthesis, Properties, and Biodegradation of Lactate-Based Polymers
113(22)
John Masani Nduko
Jian Sun
Seiichi Taguchi
Other Catalysts and Functional Peptides
9 Combining Sustainable Polymerization Routes for the Preparation of Polyesters, Polycarbonates, and Copolymers
135(12)
Charles Romain
Charlotte K. Williams
10 Aluminum Salen and Salan Polymerization Catalysts: From Monomer Scope to Macrostructure Control
147(22)
J. P. MacDonald
M. P. Shaver
11 Creation of Functional Peptides by Evolutionary Engineering with Bioorthogonal Incorporation of Artificial Components
169(14)
Seiichi Tada
Takanori Uzawa
Yoshihiro Ito
Biobased Materials from Triglyceride Feedstock
12 Thermoplastic Elastomers from Vegetable Oils via Reversible Addition-Fragmentation Chain Transfer Polymerization
183(18)
Nacu Hernandez
Mengguo Yan
R. Christopher Williams
Eric Cochran
13 From Biorefinery to Performance Technology: Transforming Renewable Olefinic Building Blocks into Lubricants and Other High-Value Products
201(22)
Kathleen O'Leary Havelka
Gregory E. Gerhardt
14 Polyacids from Corn Oil as Curing Agents for Epoxy Resins
223(12)
Jian Hong
Djavan Hairabedian
Zoran S. Petrovic
Andrew Myers
15 Modifications of Plant Oils for Value-Added Uses
235(14)
H. N. Cheng
Atanu Biswas
16 Soy-Based Building Blocks for Advanced Photocure Coating Systems
249(20)
Vijay Mannari
Chintankumar Patel
Wenyin Li
Ali Kiamanesh
17 Solid Lipid Nanoparticle -- Functional Template of Meso-Macrostructured Silica Materials
269(18)
Sanghoon Kim
Jonathan Jacoby
Marie-Jose Stebe
Nadia Canilho
Andreea Pasc
Biobased Materials from Carbohydrate Feedstock
18 In Situ Metal-Free Synthesis of Polylactide Enantiomers Grafted from Nanoclays of High Thermostability
287(18)
Giada Lo Re
Philippe Dubois
Jean-Marie Raquez
19 A Novel Renewable Thermoplastic Polyacetal by Polymerization of Glycolaldehyde Dimer, a Major Product of the Fast Pyrolysis of Cellulosic Feedstock
305(24)
Silvia D. Luebben
James W. Raebiger
20 Development of Cardanol-Bonded Cellulose Resin with Nonfood Plant Resources: Low Energy Heterogeneous Synthesis Process
329(10)
Kiyohiko Toyama
Makoto Soyama
Shukichi Tanaka
Masatoshi Iji
21 Phosphorus Flame Retardants from Esters of Isosorbide and 10-Undecenoic Acid
339(32)
B. A. Howell
Y. G. Daniel
Materials from Other Biobased Resources
22 Bio-Based Epoxy Resins from Diphenolate Esters---Replacing the Diglycidyl Ether of Bisphenol A
371(16)
Anthony Maiorana
Stephen Spinella
Richard A. Gross
23 Influence of Furanyl Building Blocks on the Cure Kinetics of a Renewable Epoxy-Amine System
387(14)
Fengshuo Hu
Majid Sharifi
Giuseppe Palmese
24 Polyesters from Bio-Aromatics
401(10)
Ha T. H. Nguyen
Elizabeth R. Suda
Emma M. Bradic
Jessica A. Hvozdovich
Stephen A. Miller
25 Development and Characterization of Pressure-Sensitive Adhesives from Dimer Acid and Epoxides
411(20)
Anlong Li
Kaichang Li
26 Structure-Property Relationships for Polycyanurate Networks Derived from Renewable Resources
431(22)
Andrew J. Guenthner
Benjamin G. Harvey
Matthew C. Davis
Michael D. Ford
Heather A. Meylemans
Michael E. Wright
Andrew P. Chafin
Joseph M. Mabry
27 Bio-Based Sources for Terephthalic Acid
453(18)
Patrick B. Smith
28 Green Polymer Aerogels
471(16)
David A. Schiraldi
Editors' Biographies
483(4)
Indexes
Author Index
487(2)
Subject Index
489
H. N. Cheng (Ph.D., University of Illinois) is currently a research chemist at the Southern Regional Research Center of the U.S. Department of Agriculture in New Orleans, where he works on projects involving improved utilization of commodity agricultural materials, green chemistry, and polymer reactions. Over the years, his research interests have included green polymer chemistry, biocatalysis and enzymatic reactions, pulp and paper chemistry, functional foods, polymer characterization, and NMR spectroscopy. He is an ACS Fellow and a POLY Fellow and has authored or co-authored 192 papers, 25 patent publications, coedited 11 books, and organized or co-organized 25 symposia at national ACS meetings since 2003.

Richard A. Gross (Ph.D., Polytechnic University) holds the Constellation Chaired Professorship at Rensselaer Polytechnic Institute (RPI) and is also a member of RPI's Departments of Chemistry and Biology as well as Biomedical Engineering. Previously, he was on the faculty of University of Massachusetts (Lowell) (1988?1998) and occupied the Herman F. Mark Chair Professorship at Polytechnic University (1998-2013). He has over 400 publications in peer-reviewed journals with approximately 7,000 citations, has edited six books, and has been granted or filed 26 patents. He has received numerous awards, including the Presidential Green Chemistry Award in the academic category (2003). He also founded SyntheZyme, LLC, (where he serves as Chief Technology Officer) in 2009 to commercialize technologies developed in his laboratory.

Patrick B. Smith (Ph.D, Michigan State University) currently serves as a research scientist at Michigan Molecular Institute. He had a productive and distinguished career at The Dow Chemical Company, rising to the rank of Fellow prior to his retirement in 2007. He was elected as an ACS Fellow in 2013. He has co-authored nearly 500 Dow technical reports, over 75 publications, and has been granted two patents.