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Biocatalysis in Polymer Science by American Chemical Society. Meeting Pdf
Biocatalysis in Polymer Science provides current information on biocatalysis, which is the use of enzymes or living organisms to carry out chemical reactions. All of the authors, including the editors, are experts and practitioners of polymer biocatalysis. Topics covered in this book include synthetic polymers, natural polymers, oligomers, and monomers. These topics amply demonstrate the versatility of this technology. Organic chemists, polymer chemists, biochemists, and graduate students will find this book a useful experience.
Biocatalysis in Polymer Chemistry by Katja Loos Pdf
Searching for green and environmentally friendly polymerization methods by using enzymes? This first handbook on this hot and essential topic contains the whole chain of knowledge of biocatalysis in polymer chemistry in both a comprehensive and compact form. International leading experts cover all important aspects, from enzymatic monomer synthesis to polymer modification and degradation. While the major focus of the book is on enzymatic polymerizations of the polymer classes reported so far, industrial contributions are also included, making this invaluable reading for biochemists and polymer chemists working in academia and industry.
H. N. Cheng,Richard A. Gross,Patrick B. Smith (Materials scientist)
Author : H. N. Cheng,Richard A. Gross,Patrick B. Smith (Materials scientist) Publisher : Unknown Page : 1 pages File Size : 52,5 Mb Release : 2015-09-01 Category : Green chemistry ISBN : 0841230668
Polymer Biocatalysis and Biomaterials II by American Chemical Society. Division of Polymer Chemistry,American Chemical Society. Meeting Pdf
Biocatalysis and biomaterials are hot research topics in polymer science, with many new reactions, new biocatalysts, and new biomaterials being discovered and applied. This symposium volume provides up-to-date reviews and articles of these exciting fields.
Author : Charles E. Carraher,James A. Moore Publisher : Springer Science & Business Media Page : 414 pages File Size : 42,7 Mb Release : 2012-12-06 Category : Science ISBN : 9781461337485
Modification of Polymers by Charles E. Carraher,James A. Moore Pdf
The sheer volume of topics which could have been included under our general title prompted us to make some rather arbitrary decisions about content. Modification by irradiation is not included because the activity in this area is being treated elsewhere. We have chosen to emphasize chemical routes to modification and have striven to pre sent as balanced a representation of current activity as time and page count permit. Industrial applications, both real and potential, are included. Where appropriate, we have encouraged the contributors to include review material to help provide the reader with adequate context. The initial chapter is a review from a historical perspective of polymer modification and contains an extensive bibliography. The remainder of the book is divided into four general areas: Reactions and Preparation of Copolymers Reactions and Preparation of Block and Graft Copolymers Modification Through Condensation Reactions Applications The chemical modification of homopolymers such as polyvinylchlo ride, polyethylene, poly(chloroalkylene sulfides), polysulfones, poly chloromethylstyrene, polyisobutylene, polysodium acrylate, polyvinyl alcohol, polyvinyl chloroformate, sulfonated polystyrene; block and graft copolymers such as poly(styrene-block-ethylene-co-butylene block-styrene), poly(I,4-polybutadiene-block ethylene oxide), star chlorine-telechelic polyisobutylene, poly(isobutylene-co-2,3-dimethyl- 1,3-butadiene), poly(styrene-co-N-butylmethacrylate); cellulose, dex tran and inulin, is described.
Polymer Biocatalysis and Biomaterials by American Chemical Society. Meeting Pdf
Likewise, biomaterials comprise an equally exciting field of research that finds many applications in dental, surgical, and medical areas. Both fields are highly interdisciplinary, requiring (at various times) knowledge and expertise in organic and polymer chemistry, material science, biochemistry, molecular biology, and chemical engineering.
Applied Biocatalysis by Lutz Hilterhaus,Andreas Liese,Ulrich Kettling,Garabed Antranikian Pdf
This reference book originates from the interdisciplinary research cooperation between academia and industry. In three distinct parts, latest results from basic research on stable enzymes are explained and brought into context with possible industrial applications. Downstream processing technology as well as biocatalytic and biotechnological production processes from global players display the enormous potential of biocatalysts. Application of "extreme" reaction conditions (i.e. unconventional, such as high temperature, pressure, and pH value) - biocatalysts are normally used within a well defined process window - leads to novel synthetic effects. Both novel enzyme systems and the synthetic routes in which they can be applied are made accessible to the reader. In addition, the complementary innovative process technology under unconventional conditions is highlighted by latest examples from biotech industry.
The action of enzymes fascinated mankind long before they were rec ognized for the complex chemicals that they are. The first application of these remarkable compounds to produce ethanol by fermentation is lost to antiquity. Payer and Persoz (Ann. Chim. Phys. , 53, 73 (1833ii)) appear to have provided the first step toward understanding this com plex area when they reported the isolation of diastase in 1833. These workers showed that diastase could catalyze the hydrolysis of starches to sugars. Somewhat earlier Kirchhoff (Schwigger's Journal, 4, 108 (1812)) had shown that a small amount of dilute acid could hydrolyze a seemingly endless amount of starch to sugars. The genius of Berzelius recognized the commonality of these two observations in connection with a few other isolated observations and in 1834 coined the term catalysis to describe such actions. Professor Leibig was one of the giants of the chemical world in 1840. In addition to his own work, Liebig was training the world's next generation of chemists in his laboratory in Giessen. This cadre of chemists were very impressed by the master teacher so that is it only natural that Liebig's views should dominate with this next generation of chemists. Leibig was, in the 1830s and 1840s, developing his mastery of agricultural chemistry. The mechanism of putrefication was of great concern to Leibig, and he turned to the newly defined area of catalysis for an explanation.
Green Polymer Chemistry: Biocatalysis and Biomaterials by H Cheng,Richard Gross Pdf
In this book, a cutting-edge group of leading international researchers from academia, government, and industrial institutions present new research in Green Polymer Chemistry.
Green Polymer Chemistry by H. N. Cheng,Richard A. Gross,Patrick B. Smith Pdf
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.
Enzymatic Polymerizations, Volume 627 in the Methods in Enzymology series, continues the legacy of this premier serial with quality chapters authored by leaders in the field. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Enzymology series Includes the latest information on Enzymatic Polymerizations
Enzymatic Polymerisation by Anja R. A. Palmans,Andreas Heise Pdf
Oxireductases in the Enzymatic Synthesis of Water-Soluble Conducting Polymers, by E. Ochoteco and D. Mecerreyes * Transferases in Polymer Chemistry, by J. van der Vlist and K. Loos * Hydrolases Part I: Enzyme Mechanism, Selectivity and Control in the Synthesis of Well-Defined Polymers, by M.A.J. Veld and A.R.A. Palmans * Hydrolases in Polymer Chemistry: Chemoenzymatic Approaches to Polymeric Materials, by A. Heise and A.R.A. Palmans * Hydrolases in Polymer Chemistry: Part III: Synthesis and Limited Surface Hydrolysis of Polyesters and Other Polymers, by G.M. Guebitz * Exploiting Biocatalysis in the Synthesis of Supramolecular Polymers, by S. Roy and R. V. Ulijn
Green Polymer Chemistry: Biocatalysis and Biomaterials by H Cheng,Richard Gross Pdf
In this book, a cutting-edge group of leading international researchers from academia, government, and industrial institutions present new research in Green Polymer Chemistry.
Biocatalysis for Green Chemistry and Chemical Process Development by Junhua (Alex) Tao,Romas Joseph Kazlauskas Pdf
This book describes recent progress in enzyme-driven green syntheses of industrially important molecules. The first three introductory chapters overview recent technological advances in enzymes and cell-based transformations, and green chemistry metrics for synthetic efficiency. The remaining chapters are directed to case studies in biotechnological production of pharmaceuticals (small molecules, natural products and biologics), flavors, fragrance and cosmetics, fine chemicals, value-added chemicals from glucose and biomass, and polymeric materials. The book is aimed to facilitate the industrial applications of this powerful and emerging green technology, and catalyze the advancement of the technology itself.