Characterisation of Polymers, Volume 2
This book is intended to be a complete compendium of the types of methodology that have evolved for the determination of the chemical composition of polymers.
Volume 1 covers the methodology used for the determination of metals, non-metals and organic functional groups in polymers, and for the determination of the ratio in which different monomer units occur in copolymers. The techniques available for composition determination of homopolymers and copolymers and other recent modern techniques such as X-ray photoelectron spectroscopy, atomic force microscopy, microthermal analysis and scanning electron microscopy and energy dispersive analysis using X-rays are also included.The structure and microstructure of polymers, copolymers and rubbers are dealt with in Volume 2. More detailed aspects, such as sequencing of monomer units in copolymers, end-group analysis, tacticity and stereochemical determinations, are also dealt with in this subsequent volume.
This book gives an up-to-date and thorough exposition of the state-of-the-art theories and availability of instrumentation needed to effect chemical and physical analysis of polymers. This is supported by approximately 1200 references. The book should be of great interest to all those engaged in the subject in industry, university research.
Volume 1 covers the methodology used for the determination of metals, non-metals and organic functional groups in polymers, and for the determination of the ratio in which different monomer units occur in copolymers. The techniques available for composition determination of homopolymers and copolymers and other recent modern techniques such as X-ray photoelectron spectroscopy, atomic force microscopy, microthermal analysis and scanning electron microscopy and energy dispersive analysis using X-rays are also included.The structure and microstructure of polymers, copolymers and rubbers are dealt with in Volume 2. More detailed aspects, such as sequencing of monomer units in copolymers, end-group analysis, tacticity and stereochemical determinations, are also dealt with in this subsequent volume.
This book gives an up-to-date and thorough exposition of the state-of-the-art theories and availability of instrumentation needed to effect chemical and physical analysis of polymers. This is supported by approximately 1200 references. The book should be of great interest to all those engaged in the subject in industry, university research.
Table of Contents
Chapter 1. Pyrolysis - Gas Chromatography
Chapter 2. Complementary Pyrolysis-Gas Chromatography-FT-IR
Chapter 3. Complementary Pyrolysis - Mass Spectrometry
Chapter 4. Complementary Pyrolysis Gas Chromatography-Mass Spectrometry
Chapter 5. Reaction Gas chromatography Techniques
Chapter 6. Sequencing of Homopolymers
Chapter 7. Sequencing in Copolymers
Chapter 8. Stereoisomerism and Tacticity
Chapter 9. Regioisomerism
Chapter 10. Branching
Chapter 11. Block Copolymers
Chapter 12. Types of Unsaturation
Chapter 13. Determination of End-groups
Chapter 1. Pyrolysis - Gas Chromatography
Chapter 2. Complementary Pyrolysis-Gas Chromatography-FT-IR
Chapter 3. Complementary Pyrolysis - Mass Spectrometry
Chapter 4. Complementary Pyrolysis Gas Chromatography-Mass Spectrometry
Chapter 5. Reaction Gas chromatography Techniques
Chapter 6. Sequencing of Homopolymers
Chapter 7. Sequencing in Copolymers
Chapter 8. Stereoisomerism and Tacticity
Chapter 9. Regioisomerism
Chapter 10. Branching
Chapter 11. Block Copolymers
Chapter 12. Types of Unsaturation
Chapter 13. Determination of End-groups
Related Products
Databook of Green Solv...
$285.00
{"id":738272804964,"title":"Databook of Green Solvents","handle":"databook-of-green-solvents","description":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthors: Anna Wypych and George Wypych\u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-82-9\u003c\/span\u003e\n\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cdiv\u003eMany currently used solvents have to be replaced, either because of regulations or because of ever growing trend to produce safer products or produce them in a safer way. There is a lot of confusion in the market place regarding of what really consists of green solvent. Some solvents previously advertised as green solvents have to be replaced according to the present regulations, and these are costly and risky operations.\u003cbr\u003eThis book not only gives data on carefully selected, commercially available, green solvents but it also gives concise advice on how to assess and qualify green solvents.\u003cbr\u003eThe Databook of Green Solvents contains data divided into five sections: General, Physical, Health, Environmental, and Use. \u003cbr\u003eIn the General section, the following data are displayed: Name, CAS number, Acronym, Chemical category, Empirical formula, IUPAC name, Mixture, Moisture contents, Molecular weight, Other properties, Product contents, EC number, RTECS number, and Synonyms 1, 2, 3.\u003cbr\u003ePhysical section contains data on Dielectric constant, Acceptor number, Acid dissociation constant, Aniline point, Antoine temperature range, Antoine constants A, B, and C, Boiling temperature, Coefficient of thermal expansion, Color, Corrosivity, Donor number, Electrical conductivity, Evaporation rates with butyl acetate=1 and ether=1, Freezing temperature, Hansen solubility parameters dD, dP, and dH, Molar volume, Heat of combustion, Enthalpy of vaporization, Enthalpy of vaporization temperature, Henry's law constant, Hildebrand solubility parameter, Kauri butanol number, Odor, Odor threshold, pH, Polarity parameter, ET(30), Refractive index, Solubility in water, Specific gravity, Specific gravity temperature, Specific heat, State, Surface tension, Thermal conductivity, Vapor density, Vapor pressure, Vapor pressure temperature, Viscosity, and Viscosity temperature.\u003cbr\u003e\u003cbr\u003eHealth section contains data on Autoignition temperature, Carcinogenicity: IRAC, NTP, OSHA, Mutagenic properties, Reproduction\/developmental toxicity, DOT class, TDG class, ICAO\/IATA class, packaging group, IMDG class, packaging group, UN\/NA hazard class, UN packaging group, Proper shipping name, Explosion limits: lower and upper, Flash point, Flash point method, LD50 dermal (rabbit), LC50 inhalation (rat), LD50 oral (mouse), LD50 oral (rat), Maximum concentration during 30 min exposure (NIOSH-IDLH), Maximum concentration at any time: ACGIH, NIOSH, OSHA, Maximum concentration during continuous exposure for 15 min: ACGIH, NIOSH, OSHA, NFPA flammability, health, reactivity, HMIS flammability, health, reactivity, Route of entry, Ingestion, Skin irritation, Eye irritation, Inhalation, First aid: eyes, skin, inhalation, Chronic effects, Target organs, Threshold limiting value: ACGIH, NIOSH, OSHA, UN number, UN risk phrases, and UN safety phrases. \u003cbr\u003e\u003cbr\u003eEnvironmental section contains data on Aquatic toxicity, Bluegill sunfish (96-h LC50), Daphnia magna (96-h LC50) and (48-h LC50), Fathead minnow (96-h LC50), Rainbow trout (96-h LC50), Bioconcentration factor, Biodegradation probability, Biological oxygen demand (20-day test) and (5-day test), Chemical oxygen demand, Atmospheric half-life, Hydroxyl rate constant, Global warming potential, Montreal protocol, Partition coefficient, Ozone depletion potential (CFC11=1), Ozone rate constant, Soil absorption constant, Theoretical oxygen demand, Urban ozone formation potential (C2H4=1), UV absorption.\u003cbr\u003e\u003cbr\u003eUse section contains information on Manufacturer, Outstanding properties, Potential substitutes, Recommended for polymers, Features \u0026amp; benefits, Processing methods, Recommended dosage, and Recommended for products.\u003cbr\u003eAbout 300 of the most essential solvents are included in the publication. The table of contents gives more information on solvent groups included in the Databook of Green Solvents. Emphasis is given to safer and more efficient replacements of more toxic solvents. In addition to this publication, Databook of Solvents contains data on solvents most frequently used by industry.\u003cbr\u003eReaders interested in this subject should note that two volumes of fundamental treatment of all essential areas of solvents’ use have also been just published. They include: Handbook of Solvents. Volume 1. Properties and Handbook of Solvents. Volume 2. Use, Health, and Environment. Together these four books provide the most comprehensive information on the subject ever published. The books are the authoritative source of knowledge, considering that very well-known experts in the fields of solvent use were involved in the creation of these extensive publications.\u003c\/div\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n\u003cdiv\u003e1 What does make solvent green?\u003c\/div\u003e\n\u003cdiv\u003e2 Information on the data fields\u003c\/div\u003e\n\u003cdiv\u003e3 Solvents\u003c\/div\u003e\n\u003cdiv\u003e3.1 Biodegradable solvents\u003c\/div\u003e\n\u003cdiv\u003e3.2 Biorenewable solvents\u003c\/div\u003e\n\u003cdiv\u003e3.3 Deep eutectic solvents\u003c\/div\u003e\n\u003cdiv\u003e3.4 Esters\u003c\/div\u003e\n\u003cdiv\u003e3.5 Fatty acid methyl esters\u003c\/div\u003e\n\u003cdiv\u003e3.6 Generally recognized as safe, GRAS, solvents\u003c\/div\u003e\n\u003cdiv\u003e3.7 Generic solvents\u003c\/div\u003e\n\u003cdiv\u003e3.8 Hydrofluoroethers \u003c\/div\u003e\n\u003cdiv\u003e3.9 Ionic liquids\u003c\/div\u003e\n\u003cdiv\u003e3.10 Perfluorocarbons\u003c\/div\u003e\n\u003cdiv\u003e3.11 Siloxanes\u003c\/div\u003e","published_at":"2017-06-22T21:13:20-04:00","created_at":"2018-04-05T20:47:15-04:00","vendor":"Chemtec Publishing","type":"Book","tags":["2014","book","environment","green solvent","health","physical properties","solvent"],"price":28500,"price_min":28500,"price_max":28500,"available":true,"price_varies":false,"compare_at_price":null,"compare_at_price_min":0,"compare_at_price_max":0,"compare_at_price_varies":false,"variants":[{"id":8103400308836,"title":"Default Title","option1":"Default Title","option2":null,"option3":null,"sku":"","requires_shipping":true,"taxable":true,"featured_image":null,"available":true,"name":"Databook of Green Solvents","public_title":null,"options":["Default Title"],"price":28500,"weight":1000,"compare_at_price":null,"inventory_quantity":1,"inventory_management":null,"inventory_policy":"continue","barcode":"978-1-895198-16-4"}],"images":["\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-82-9_612d2e8c-6044-45e9-a572-ec81e6b88d30.jpg?v=1522976003"],"featured_image":"\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-82-9_612d2e8c-6044-45e9-a572-ec81e6b88d30.jpg?v=1522976003","options":["Title"],"content":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthors: Anna Wypych and George Wypych\u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-82-9\u003c\/span\u003e\n\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cdiv\u003eMany currently used solvents have to be replaced, either because of regulations or because of ever growing trend to produce safer products or produce them in a safer way. There is a lot of confusion in the market place regarding of what really consists of green solvent. Some solvents previously advertised as green solvents have to be replaced according to the present regulations, and these are costly and risky operations.\u003cbr\u003eThis book not only gives data on carefully selected, commercially available, green solvents but it also gives concise advice on how to assess and qualify green solvents.\u003cbr\u003eThe Databook of Green Solvents contains data divided into five sections: General, Physical, Health, Environmental, and Use. \u003cbr\u003eIn the General section, the following data are displayed: Name, CAS number, Acronym, Chemical category, Empirical formula, IUPAC name, Mixture, Moisture contents, Molecular weight, Other properties, Product contents, EC number, RTECS number, and Synonyms 1, 2, 3.\u003cbr\u003ePhysical section contains data on Dielectric constant, Acceptor number, Acid dissociation constant, Aniline point, Antoine temperature range, Antoine constants A, B, and C, Boiling temperature, Coefficient of thermal expansion, Color, Corrosivity, Donor number, Electrical conductivity, Evaporation rates with butyl acetate=1 and ether=1, Freezing temperature, Hansen solubility parameters dD, dP, and dH, Molar volume, Heat of combustion, Enthalpy of vaporization, Enthalpy of vaporization temperature, Henry's law constant, Hildebrand solubility parameter, Kauri butanol number, Odor, Odor threshold, pH, Polarity parameter, ET(30), Refractive index, Solubility in water, Specific gravity, Specific gravity temperature, Specific heat, State, Surface tension, Thermal conductivity, Vapor density, Vapor pressure, Vapor pressure temperature, Viscosity, and Viscosity temperature.\u003cbr\u003e\u003cbr\u003eHealth section contains data on Autoignition temperature, Carcinogenicity: IRAC, NTP, OSHA, Mutagenic properties, Reproduction\/developmental toxicity, DOT class, TDG class, ICAO\/IATA class, packaging group, IMDG class, packaging group, UN\/NA hazard class, UN packaging group, Proper shipping name, Explosion limits: lower and upper, Flash point, Flash point method, LD50 dermal (rabbit), LC50 inhalation (rat), LD50 oral (mouse), LD50 oral (rat), Maximum concentration during 30 min exposure (NIOSH-IDLH), Maximum concentration at any time: ACGIH, NIOSH, OSHA, Maximum concentration during continuous exposure for 15 min: ACGIH, NIOSH, OSHA, NFPA flammability, health, reactivity, HMIS flammability, health, reactivity, Route of entry, Ingestion, Skin irritation, Eye irritation, Inhalation, First aid: eyes, skin, inhalation, Chronic effects, Target organs, Threshold limiting value: ACGIH, NIOSH, OSHA, UN number, UN risk phrases, and UN safety phrases. \u003cbr\u003e\u003cbr\u003eEnvironmental section contains data on Aquatic toxicity, Bluegill sunfish (96-h LC50), Daphnia magna (96-h LC50) and (48-h LC50), Fathead minnow (96-h LC50), Rainbow trout (96-h LC50), Bioconcentration factor, Biodegradation probability, Biological oxygen demand (20-day test) and (5-day test), Chemical oxygen demand, Atmospheric half-life, Hydroxyl rate constant, Global warming potential, Montreal protocol, Partition coefficient, Ozone depletion potential (CFC11=1), Ozone rate constant, Soil absorption constant, Theoretical oxygen demand, Urban ozone formation potential (C2H4=1), UV absorption.\u003cbr\u003e\u003cbr\u003eUse section contains information on Manufacturer, Outstanding properties, Potential substitutes, Recommended for polymers, Features \u0026amp; benefits, Processing methods, Recommended dosage, and Recommended for products.\u003cbr\u003eAbout 300 of the most essential solvents are included in the publication. The table of contents gives more information on solvent groups included in the Databook of Green Solvents. Emphasis is given to safer and more efficient replacements of more toxic solvents. In addition to this publication, Databook of Solvents contains data on solvents most frequently used by industry.\u003cbr\u003eReaders interested in this subject should note that two volumes of fundamental treatment of all essential areas of solvents’ use have also been just published. They include: Handbook of Solvents. Volume 1. Properties and Handbook of Solvents. Volume 2. Use, Health, and Environment. Together these four books provide the most comprehensive information on the subject ever published. The books are the authoritative source of knowledge, considering that very well-known experts in the fields of solvent use were involved in the creation of these extensive publications.\u003c\/div\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n\u003cdiv\u003e1 What does make solvent green?\u003c\/div\u003e\n\u003cdiv\u003e2 Information on the data fields\u003c\/div\u003e\n\u003cdiv\u003e3 Solvents\u003c\/div\u003e\n\u003cdiv\u003e3.1 Biodegradable solvents\u003c\/div\u003e\n\u003cdiv\u003e3.2 Biorenewable solvents\u003c\/div\u003e\n\u003cdiv\u003e3.3 Deep eutectic solvents\u003c\/div\u003e\n\u003cdiv\u003e3.4 Esters\u003c\/div\u003e\n\u003cdiv\u003e3.5 Fatty acid methyl esters\u003c\/div\u003e\n\u003cdiv\u003e3.6 Generally recognized as safe, GRAS, solvents\u003c\/div\u003e\n\u003cdiv\u003e3.7 Generic solvents\u003c\/div\u003e\n\u003cdiv\u003e3.8 Hydrofluoroethers \u003c\/div\u003e\n\u003cdiv\u003e3.9 Ionic liquids\u003c\/div\u003e\n\u003cdiv\u003e3.10 Perfluorocarbons\u003c\/div\u003e\n\u003cdiv\u003e3.11 Siloxanes\u003c\/div\u003e"}
Rate of Equation for P...
$120.00
{"id":738272051300,"title":"Rate of Equation for Polymerization","handle":"rate-of-equation-for-polymerization","description":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthors: Reiji Mezaki, Guang Hui Ma\u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-16-4\u003c\/span\u003e\n\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cdiv\u003eThis book is a compilation of rate expressions for industrially important polymerization reactions which have appeared in major technical journals in both chemistry and chemical engineering. In this text we have selected only homo- polymer systems with the exception of polycondensation systems although co- polymers are more widely used. It is our intention to compile and publish the rate expressions for copolymerization reactions in a subsequent volume. In the polymer industry rate expressions are vital for the analysis optimal design and optimal operation of polymerization reactors. In reacting systems other than polymerization reaction comprehensive summaries of kinetic data have been published on may occasions. For polymerization reactions however no extensive compilation of rate expressions has been attempted even though many useful textbooks have been published for the study of polymerization kinetics. It is true that computer aided searches of pertinent databases assist chemists and chemical engineers in finding rate expressions needed for their studies. Yet computer surveys of data bases are sometimes time consuming and often costly. We hope that this book will be of service for those who wish to conduct an efficient survey of the rate expressions of interest to them. The contents of the book can be used in a variety of ways. For example chemists and chemical engineers can estimate polymerization rates for desired polymerization conditions by using the rate expressions assembled here. comparison of the rates thus estimated against rates determined for a newly developed initiator or catalyst furnishes a useful evaluation of the initiator or catalyst. For the development of polymerization rate models, we recommend that investigators modified models on the basis of their own data. In the area of polymerization reactions, it is generally recognized that rate expressions are totally different if the polymerization occurs in the region where diffusion process of reactants and\/or products are rate- determining. On some occasions needless to say rate expressions reported in the past can be used without modifying the form of the rate equations. However, the rate parameters contained in the equations must be reevaluated by using the experimental data gathered by the investigators themselves. The use of uniform units might be convenient for users of this book.\u003c\/div\u003e\n\u003cdiv\u003e\u003c\/div\u003e\n\u003cdiv\u003eNo attempts were made to have such uniformity in order to avoid errors that we might introduce during the process of converting the units. It should be noted that many important journals issued in Russia in Eastern Europe and in the People’s Republic of China were excluded in our search for rate expressions. This is mainly because some difficulties were experienced in obtaining both the original and the English versions of these journals. However, the authors sincerely hope that the publication of this book will encourage other interested persons to collect rate expressions published in the geographical regions mentioned above. Perhaps in this way, some collaborative efforts will result in a substantially more complete collection of rate expressions for polymerization reactions.\u003c\/div\u003e\n\u003cspan\u003e\u003cbr\u003e\u003cbr\u003e\u003c\/span\u003e\u003cbr\u003e\u003cbr\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n1.Introduction \u003cbr\u003e2.General Mechanism of Template Polymerization \u003cbr\u003e2.1 Template Polycondensation\u003cbr\u003e2.2 Chain Template Polymerization\u003cbr\u003e2.3 Template Copolymerization \u003cbr\u003e3.Templates and Orientation of Substrates on Template \u003cbr\u003e4.Examples of Template Polymerization\u003cbr\u003e4.1 Polyacids as Templates\u003cbr\u003e4.2 Polyimines and Polyamines as Templates\u003cbr\u003e4.3 Polybase Ionenes as Templates\u003cbr\u003e4.4 Poly(ethylene oxide) and Poly(vinyl pyrrolidone) as Templates\u003cbr\u003e4.5 Poly(methyl methacrylate) as Template\u003cbr\u003e4.6 Poly(vinylopyridines) as Templates\u003cbr\u003e4.7 Other Templates\u003cbr\u003e4.8 Multimonomers as Templates\u003cbr\u003e4.9 Ring-opening Polymerization\u003cbr\u003e5.Examples of Template Copolymerization\u003cbr\u003e5.1 Template Copolycondensation\u003cbr\u003e5.2 Ring Opening Template Copolymerization\u003cbr\u003e5.3 Radical Template Copolymerization\u003cbr\u003e5.3.1 Copolymerization with Participation of Multimonomers\u003cbr\u003e5.3.2 Copolymerization of Two Different Multimonomers \u003cbr\u003e5.3.3 Copolymerization without Multimonomers\u003cbr\u003e6.Examples of Template Polycondensation \u003cbr\u003e7.Secondary Reactions in Template Polymerization \u003cbr\u003e8.Kinetics of Template Polymerization \u003cbr\u003e8.2 Template Ring-opening Polymerization Kinetics \u003cbr\u003e8.3 Template Radical Polymerization Kinetics\u003cbr\u003e8.4 Kinetics of Multimonomer Polymerization 9.Products of Template Polymerization \u003cbr\u003e9.1 Polymers with Ladder-type Structure\u003cbr\u003e9.2 Polymer Complexes\u003cbr\u003e10.Potential Applications \u003cbr\u003e11.Experimental Techniques Used in the Study of Template Polymerization\u003cbr\u003e11.1 Methods of Examination of Polymerization Process\u003cbr\u003e11.2 Methods of Examination of Template Polymerization Products\u003cbr\u003e11.2.1 Polymeric Complexes\u003cbr\u003e11.2.2 Ladder Polymers","published_at":"2017-06-22T21:13:20-04:00","created_at":"2018-04-05T20:38:23-04:00","vendor":"Chemtec Publishing","type":"Book","tags":["1985","alloys","blends","book","japan","japanese patent","polymer","polymers"],"price":12000,"price_min":12000,"price_max":12000,"available":true,"price_varies":false,"compare_at_price":null,"compare_at_price_min":0,"compare_at_price_max":0,"compare_at_price_varies":false,"variants":[{"id":8103396311140,"title":"Default Title","option1":"Default Title","option2":null,"option3":null,"sku":"","requires_shipping":true,"taxable":true,"featured_image":null,"available":true,"name":"Rate of Equation for Polymerization","public_title":null,"options":["Default Title"],"price":12000,"weight":1000,"compare_at_price":null,"inventory_quantity":1,"inventory_management":null,"inventory_policy":"continue","barcode":"978-1-895198-16-4"}],"images":["\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-16-4.jpg?v=1522975454"],"featured_image":"\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-16-4.jpg?v=1522975454","options":["Title"],"content":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthors: Reiji Mezaki, Guang Hui Ma\u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-16-4\u003c\/span\u003e\n\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cdiv\u003eThis book is a compilation of rate expressions for industrially important polymerization reactions which have appeared in major technical journals in both chemistry and chemical engineering. In this text we have selected only homo- polymer systems with the exception of polycondensation systems although co- polymers are more widely used. It is our intention to compile and publish the rate expressions for copolymerization reactions in a subsequent volume. In the polymer industry rate expressions are vital for the analysis optimal design and optimal operation of polymerization reactors. In reacting systems other than polymerization reaction comprehensive summaries of kinetic data have been published on may occasions. For polymerization reactions however no extensive compilation of rate expressions has been attempted even though many useful textbooks have been published for the study of polymerization kinetics. It is true that computer aided searches of pertinent databases assist chemists and chemical engineers in finding rate expressions needed for their studies. Yet computer surveys of data bases are sometimes time consuming and often costly. We hope that this book will be of service for those who wish to conduct an efficient survey of the rate expressions of interest to them. The contents of the book can be used in a variety of ways. For example chemists and chemical engineers can estimate polymerization rates for desired polymerization conditions by using the rate expressions assembled here. comparison of the rates thus estimated against rates determined for a newly developed initiator or catalyst furnishes a useful evaluation of the initiator or catalyst. For the development of polymerization rate models, we recommend that investigators modified models on the basis of their own data. In the area of polymerization reactions, it is generally recognized that rate expressions are totally different if the polymerization occurs in the region where diffusion process of reactants and\/or products are rate- determining. On some occasions needless to say rate expressions reported in the past can be used without modifying the form of the rate equations. However, the rate parameters contained in the equations must be reevaluated by using the experimental data gathered by the investigators themselves. The use of uniform units might be convenient for users of this book.\u003c\/div\u003e\n\u003cdiv\u003e\u003c\/div\u003e\n\u003cdiv\u003eNo attempts were made to have such uniformity in order to avoid errors that we might introduce during the process of converting the units. It should be noted that many important journals issued in Russia in Eastern Europe and in the People’s Republic of China were excluded in our search for rate expressions. This is mainly because some difficulties were experienced in obtaining both the original and the English versions of these journals. However, the authors sincerely hope that the publication of this book will encourage other interested persons to collect rate expressions published in the geographical regions mentioned above. Perhaps in this way, some collaborative efforts will result in a substantially more complete collection of rate expressions for polymerization reactions.\u003c\/div\u003e\n\u003cspan\u003e\u003cbr\u003e\u003cbr\u003e\u003c\/span\u003e\u003cbr\u003e\u003cbr\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n1.Introduction \u003cbr\u003e2.General Mechanism of Template Polymerization \u003cbr\u003e2.1 Template Polycondensation\u003cbr\u003e2.2 Chain Template Polymerization\u003cbr\u003e2.3 Template Copolymerization \u003cbr\u003e3.Templates and Orientation of Substrates on Template \u003cbr\u003e4.Examples of Template Polymerization\u003cbr\u003e4.1 Polyacids as Templates\u003cbr\u003e4.2 Polyimines and Polyamines as Templates\u003cbr\u003e4.3 Polybase Ionenes as Templates\u003cbr\u003e4.4 Poly(ethylene oxide) and Poly(vinyl pyrrolidone) as Templates\u003cbr\u003e4.5 Poly(methyl methacrylate) as Template\u003cbr\u003e4.6 Poly(vinylopyridines) as Templates\u003cbr\u003e4.7 Other Templates\u003cbr\u003e4.8 Multimonomers as Templates\u003cbr\u003e4.9 Ring-opening Polymerization\u003cbr\u003e5.Examples of Template Copolymerization\u003cbr\u003e5.1 Template Copolycondensation\u003cbr\u003e5.2 Ring Opening Template Copolymerization\u003cbr\u003e5.3 Radical Template Copolymerization\u003cbr\u003e5.3.1 Copolymerization with Participation of Multimonomers\u003cbr\u003e5.3.2 Copolymerization of Two Different Multimonomers \u003cbr\u003e5.3.3 Copolymerization without Multimonomers\u003cbr\u003e6.Examples of Template Polycondensation \u003cbr\u003e7.Secondary Reactions in Template Polymerization \u003cbr\u003e8.Kinetics of Template Polymerization \u003cbr\u003e8.2 Template Ring-opening Polymerization Kinetics \u003cbr\u003e8.3 Template Radical Polymerization Kinetics\u003cbr\u003e8.4 Kinetics of Multimonomer Polymerization 9.Products of Template Polymerization \u003cbr\u003e9.1 Polymers with Ladder-type Structure\u003cbr\u003e9.2 Polymer Complexes\u003cbr\u003e10.Potential Applications \u003cbr\u003e11.Experimental Techniques Used in the Study of Template Polymerization\u003cbr\u003e11.1 Methods of Examination of Polymerization Process\u003cbr\u003e11.2 Methods of Examination of Template Polymerization Products\u003cbr\u003e11.2.1 Polymeric Complexes\u003cbr\u003e11.2.2 Ladder Polymers"}
Template polymerization
$85.00
{"id":738270773348,"title":"Template polymerization","handle":"template-polymerization","description":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthor: Stefan Polowinski, Technical University of Lodz, Poland \u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-15-7\u003c\/span\u003e\u003cbr\u003e151 pp., 60 figures, 18 tables\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cspan\u003eIntroducing the first published monograph devoted to this emerging technology \u003cbr\u003eTemplate polymerization is a new field in polymer synthesis but common practice in the biosynthesis since DNA is the most popular template or matrix on which proteins are built by living species. \u003cbr\u003e\u003cbr\u003eThis field is relevant to the synthesis of polymers of controlled structure but its application goes beyond the synthesis. Materials are formulated in complex mixtures always containing components which can be regarded as templates on which other materials are formed, modified, or are interacted with. In the new product development, the relevance of these phenomena is controlled by the order of addition which affects probabilities and preferences of interaction. \u003cbr\u003e\u003cbr\u003eThe current publication outlines mechanisms of template polymerization, polycondensation, and copolymerization. These mechanisms, illustrated with numerous examples, indicate a range of possibilities which can be encountered in materials and utilized to modify their properties. The orientation of substrates on a template and their effect on modification of their reactivity and properties such as, for example, absorption of light or water are also discussed. Several chapters contain information on these studies discussed with sufficient detail to give reader comprehensive understanding of the methods used in various research laboratories and their findings. \u003cbr\u003e\u003cbr\u003eKinetics of template polymerization is discussed from both theoretical and analytical sides. First, the kinetic equations which are useful in the analysis of template polymerization are discussed. The theories quoted were verified by the experiments. The chapter contains data on several groups of typical reaction mechanisms. This chapter is followed by the discussion of properties of materials which are obtained in template polymerization. These products are compared with materials made from similar monomers but without the advent of a template. \u003cbr\u003e\u003cbr\u003eSeveral ideas are given regarding potential applications of this interesting technology. The book is completed by the in-depth, expert discussion of methods which can be applied to study template polymerization. Similar methods and techniques can be applied to study the effect of materials in multicomponent mixtures from which commercial products are manufactured. This may allow one to understand various properties observed in multicomponent systems. \u003cbr\u003e\u003cbr\u003eThis book concentrates on the subject of the template (matrix) polymerization but it is a relevant source of information for those involved in any aspect of polymer synthesis, processing, and application. Since it is written in a very direct manner by one of the leading experts in this technology, the book can be used in a university classroom, by a researcher, engineer in production, or any other person who wants to understand what happens when materials interact with each other.\u003cbr\u003e\u003cbr\u003e\u003c\/span\u003e\u003cbr\u003e\u003cbr\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n1.Introduction \u003cbr\u003e2.General Mechanism of Template Polymerization \u003cbr\u003e2.1 Template Polycondensation\u003cbr\u003e2.2 Chain Template Polymerization\u003cbr\u003e2.3 Template Copolymerization \u003cbr\u003e3.Templates and Orientation of Substrates on Template \u003cbr\u003e4.Examples of Template Polymerization\u003cbr\u003e4.1 Polyacids as Templates\u003cbr\u003e4.2 Polyimines and Polyamines as Templates\u003cbr\u003e4.3 Polybase Ionenes as Templates\u003cbr\u003e4.4 Poly(ethylene oxide) and Poly(vinyl pyrrolidone) as Templates\u003cbr\u003e4.5 Poly(methyl methacrylate) as Template\u003cbr\u003e4.6 Poly(vinylopyridines) as Templates\u003cbr\u003e4.7 Other Templates\u003cbr\u003e4.8 Multimonomers as Templates\u003cbr\u003e4.9 Ring-opening Polymerization\u003cbr\u003e5.Examples of Template Copolymerization\u003cbr\u003e5.1 Template Copolycondensation\u003cbr\u003e5.2 Ring Opening Template Copolymerization\u003cbr\u003e5.3 Radical Template Copolymerization\u003cbr\u003e5.3.1 Copolymerization with Participation of Multimonomers\u003cbr\u003e5.3.2 Copolymerization of Two Different Multimonomers \u003cbr\u003e5.3.3 Copolymerization without Multimonomers\u003cbr\u003e6.Examples of Template Polycondensation \u003cbr\u003e7.Secondary Reactions in Template Polymerization \u003cbr\u003e8.Kinetics of Template Polymerization \u003cbr\u003e8.2 Template Ring-opening Polymerization Kinetics \u003cbr\u003e8.3 Template Radical Polymerization Kinetics\u003cbr\u003e8.4 Kinetics of Multimonomer Polymerization 9.Products of Template Polymerization \u003cbr\u003e9.1 Polymers with Ladder-type Structure\u003cbr\u003e9.2 Polymer Complexes\u003cbr\u003e10.Potential Applications \u003cbr\u003e11.Experimental Techniques Used in the Study of Template Polymerization\u003cbr\u003e11.1 Methods of Examination of Polymerization Process\u003cbr\u003e11.2 Methods of Examination of Template Polymerization Products\u003cbr\u003e11.2.1 Polymeric Complexes\u003cbr\u003e11.2.2 Ladder Polymers","published_at":"2017-06-22T21:13:20-04:00","created_at":"2018-04-05T20:26:14-04:00","vendor":"Chemtec Publishing","type":"Book","tags":["biosynthesis","blends","book","copolymerization","DNA","polymer","polymer synthesis","polymerization","polymers"],"price":8500,"price_min":8500,"price_max":8500,"available":true,"price_varies":false,"compare_at_price":null,"compare_at_price_min":0,"compare_at_price_max":0,"compare_at_price_varies":false,"variants":[{"id":8103392313444,"title":"Default Title","option1":"Default Title","option2":null,"option3":null,"sku":"","requires_shipping":true,"taxable":true,"featured_image":null,"available":true,"name":"Template polymerization","public_title":null,"options":["Default Title"],"price":8500,"weight":1000,"compare_at_price":null,"inventory_quantity":1,"inventory_management":null,"inventory_policy":"continue","barcode":"978-1-895198-15-7"}],"images":["\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-15-7.jpg?v=1522975074"],"featured_image":"\/\/cdn.shopify.com\/s\/files\/1\/1555\/1853\/products\/978-1-895198-15-7.jpg?v=1522975074","options":["Title"],"content":"\u003ch5\u003eDescription\u003c\/h5\u003e\n\u003cdiv\u003eAuthor: Stefan Polowinski, Technical University of Lodz, Poland \u003c\/div\u003e\n\u003cdiv\u003eISBN \u003cspan\u003e978-1-895198-15-7\u003c\/span\u003e\u003cbr\u003e151 pp., 60 figures, 18 tables\u003c\/div\u003e\n\u003cbr\u003e\n\u003ch5\u003eSummary\u003c\/h5\u003e\n\u003cspan\u003eIntroducing the first published monograph devoted to this emerging technology \u003cbr\u003eTemplate polymerization is a new field in polymer synthesis but common practice in the biosynthesis since DNA is the most popular template or matrix on which proteins are built by living species. \u003cbr\u003e\u003cbr\u003eThis field is relevant to the synthesis of polymers of controlled structure but its application goes beyond the synthesis. Materials are formulated in complex mixtures always containing components which can be regarded as templates on which other materials are formed, modified, or are interacted with. In the new product development, the relevance of these phenomena is controlled by the order of addition which affects probabilities and preferences of interaction. \u003cbr\u003e\u003cbr\u003eThe current publication outlines mechanisms of template polymerization, polycondensation, and copolymerization. These mechanisms, illustrated with numerous examples, indicate a range of possibilities which can be encountered in materials and utilized to modify their properties. The orientation of substrates on a template and their effect on modification of their reactivity and properties such as, for example, absorption of light or water are also discussed. Several chapters contain information on these studies discussed with sufficient detail to give reader comprehensive understanding of the methods used in various research laboratories and their findings. \u003cbr\u003e\u003cbr\u003eKinetics of template polymerization is discussed from both theoretical and analytical sides. First, the kinetic equations which are useful in the analysis of template polymerization are discussed. The theories quoted were verified by the experiments. The chapter contains data on several groups of typical reaction mechanisms. This chapter is followed by the discussion of properties of materials which are obtained in template polymerization. These products are compared with materials made from similar monomers but without the advent of a template. \u003cbr\u003e\u003cbr\u003eSeveral ideas are given regarding potential applications of this interesting technology. The book is completed by the in-depth, expert discussion of methods which can be applied to study template polymerization. Similar methods and techniques can be applied to study the effect of materials in multicomponent mixtures from which commercial products are manufactured. This may allow one to understand various properties observed in multicomponent systems. \u003cbr\u003e\u003cbr\u003eThis book concentrates on the subject of the template (matrix) polymerization but it is a relevant source of information for those involved in any aspect of polymer synthesis, processing, and application. Since it is written in a very direct manner by one of the leading experts in this technology, the book can be used in a university classroom, by a researcher, engineer in production, or any other person who wants to understand what happens when materials interact with each other.\u003cbr\u003e\u003cbr\u003e\u003c\/span\u003e\u003cbr\u003e\u003cbr\u003e\n\u003ch5\u003eTable of Contents\u003c\/h5\u003e\n1.Introduction \u003cbr\u003e2.General Mechanism of Template Polymerization \u003cbr\u003e2.1 Template Polycondensation\u003cbr\u003e2.2 Chain Template Polymerization\u003cbr\u003e2.3 Template Copolymerization \u003cbr\u003e3.Templates and Orientation of Substrates on Template \u003cbr\u003e4.Examples of Template Polymerization\u003cbr\u003e4.1 Polyacids as Templates\u003cbr\u003e4.2 Polyimines and Polyamines as Templates\u003cbr\u003e4.3 Polybase Ionenes as Templates\u003cbr\u003e4.4 Poly(ethylene oxide) and Poly(vinyl pyrrolidone) as Templates\u003cbr\u003e4.5 Poly(methyl methacrylate) as Template\u003cbr\u003e4.6 Poly(vinylopyridines) as Templates\u003cbr\u003e4.7 Other Templates\u003cbr\u003e4.8 Multimonomers as Templates\u003cbr\u003e4.9 Ring-opening Polymerization\u003cbr\u003e5.Examples of Template Copolymerization\u003cbr\u003e5.1 Template Copolycondensation\u003cbr\u003e5.2 Ring Opening Template Copolymerization\u003cbr\u003e5.3 Radical Template Copolymerization\u003cbr\u003e5.3.1 Copolymerization with Participation of Multimonomers\u003cbr\u003e5.3.2 Copolymerization of Two Different Multimonomers \u003cbr\u003e5.3.3 Copolymerization without Multimonomers\u003cbr\u003e6.Examples of Template Polycondensation \u003cbr\u003e7.Secondary Reactions in Template Polymerization \u003cbr\u003e8.Kinetics of Template Polymerization \u003cbr\u003e8.2 Template Ring-opening Polymerization Kinetics \u003cbr\u003e8.3 Template Radical Polymerization Kinetics\u003cbr\u003e8.4 Kinetics of Multimonomer Polymerization 9.Products of Template Polymerization \u003cbr\u003e9.1 Polymers with Ladder-type Structure\u003cbr\u003e9.2 Polymer Complexes\u003cbr\u003e10.Potential Applications \u003cbr\u003e11.Experimental Techniques Used in the Study of Template Polymerization\u003cbr\u003e11.1 Methods of Examination of Polymerization Process\u003cbr\u003e11.2 Methods of Examination of Template Polymerization Products\u003cbr\u003e11.2.1 Polymeric Complexes\u003cbr\u003e11.2.2 Ladder Polymers"}