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Step copolymerization synthesis

Copolymerization is also important in step polymerization. Relatively few studies on step copolymerization have been carried out, although there are considerable commercial applications. Unlike the situation in chain copolymerization, the overall composition of the copolymer obtained in a step copolymerization is usually the same as the feed composition since step reactions must be carried out to close to 100% conversion for the synthesis of... [Pg.464]

The versatility of polymerization resides not only in the different types of polymerization reactions and types of reactants that can be polymerized, but also in variations allowed by step-growth synthesis, copolymerization, and stereospecific polymerization. Chain polymerization is the most important kind of copolymerization process and is considered separately in Chapter 7, while Chapter 9 describes the stereochemistry of polymerization with emphasis on the synthesis of polymers with stereoregular structures by the appropriate choice of polymerization conditions, including the more recent metallocene-based Ziegler-Natta systems. Synthetic approaches to starburst and hyperbranched polymers which promise to open up new applications in the future are considered in an earlier chapter dealing with step-growth polymerization. [Pg.859]

Use of the pendent acetylene functionality and click chemistry carries a number of benefits relative to other methods discussed thus far, including the relatively easy one step monomer synthesis, the ability to homopolymerize or copolymerize the acetylene-functionalized lactone, and the single postpolymerization step that enables coupling of a very diverse range of azide-... [Pg.262]

This method of synthesis, which is indicated schematically by equation (3), comprises essentially a reaction of step copolymerization between reactants at least one of which is polymeric. Commonly met systems of this class involve combination through the end group reactant pairs HO + OCN, HO -H MeOjC, and NHj -H CICO. [Pg.1140]

DEVELOPMENTS IN HETEROCHAIN BLOCK COPOLYMER SYNTHESIS 11.2.1 Blockiness in Randomization and Step Copolymerization Reaction Products... [Pg.1143]

A significant step towards commercial success came with a discovery in the late 1950s by E. Ulrich at 3M when he found that copolymerization of hydrogen bonding monomers, like acrylic acid with alkyl acrylates resulted in cohesively strong, yet tacky materials [63]. Since then, newer developments in such areas as polymer crosslinking, and the synthesis and copolymerization of new monomers, have led to a rapid penetration of acrylics throughout the PSA industry. [Pg.485]

The insertion of unsaturated molecules into metal-carbon bonds is a critically important step in many transition-metal catalyzed organic transformations. The difference in insertion propensity of carbon-carbon and carbon-nitrogen multiple bonds can be attributed to the coordination characteristics of the respective molecules. The difficulty in achieving a to it isomerization may be the reason for the paucity of imine insertions. The synthesis of amides by the insertion of imines into palladium(II)-acyl bonds is the first direct observation of the insertion of imines into bonds between transition metals and carbon (see Scheme 7). The alternating copolymerization of imines with carbon monoxide (in which the insertion of the imine into palladium-acyl bonds would be the key step in the chain growth sequence), if successful, should constitute a new procedure for the synthesis of polypeptides (see Scheme 7).348... [Pg.589]

The synthesis of elastomers by step, chain, and ring-opening polymerizations is reviewed. These reactions are characterized as to the process variables which must be controlled to achieve the synthesis and crosslinking of an elastomer of the required structure. Both radical and ionic chain polymerizations are discussed as well as the structural variations possible through copolymerization and s tereoregularity. [Pg.2]

The next step concerned the synthesis of the polyester-polyimide copolymers. Triblock copolymers have been prepared by a step-growth copolymerization of stoichiometric amounts of an aromatic diamine and dianhydride (e.g., PMDA and 3FDA, as depicted in Scheme 41a) added with the single oo-amino polyesters as chain end-cappers. Graft copolymers can be prepared as well. In this case, the diamine end-functionalized oligomeric macromonomers are copolymerized with the polyimide condensation comonomers (Scheme 41b). [Pg.49]

For most step polymerizations, for example, in the synthesis of polyl hexamethylene adipa-mide) or polyethylene terephthalate), two reactants or monomers are used in the process, and the polymer obtained contains two different kinds of structures in the chain. This is not the case for chain polymerizations, where only one monomer need be used to produce a polymer. However, chain polymerizations can be carried out with mixtures of two monomers to form polymeric products wiht two different structures in the polymer chain. This type of chain polymerization process in which two monomers are simultaneously polymerized is termed a copolymerization, and the product is a copolymer. It is important to stress that the copolymer is not an alloy of two homopolymers hut contains units of both monomers incorporated into each copolymer molecule. The process can be depicted as... [Pg.464]

Fig. 10b. A scheme of its synthesis. First, a reactive comonomer. Af-methacryloylglycyl-phenylalanylleucylgycine p-nitrophenyl ester was synthesized. In the second step a polymeric precursor is prepared by copolymerization of the reactive comonomer with A-(2-hydroxyp-ropyl)methacrylamide. After purification and characterization of the polymeric precursor, the anticancer drug (adriamycin) and targeting moiety (galactosamine) are attached by consecutive aminolysis. For details see, e.g., [169]... Fig. 10b. A scheme of its synthesis. First, a reactive comonomer. Af-methacryloylglycyl-phenylalanylleucylgycine p-nitrophenyl ester was synthesized. In the second step a polymeric precursor is prepared by copolymerization of the reactive comonomer with A-(2-hydroxyp-ropyl)methacrylamide. After purification and characterization of the polymeric precursor, the anticancer drug (adriamycin) and targeting moiety (galactosamine) are attached by consecutive aminolysis. For details see, e.g., [169]...
Weak Acid Cation Exchangers, The synthesis of weak acid cation exchangers is a one-step process when acrylic acid or methacrylic acid is copolymerized with DVB. If an acrylic ester is used as the monomer instead of an acrylic acid, the ester groups must be hydrolyzed after polymerization using either an acid or base (NaOH) to give the carboxylic acid functionality, or the sodium salt (4) of it. [Pg.374]

The counter radical method can also be used for graft copolymer synthesis. Solomon et al. propose two routes [51]. The first one involves copolymerization with a functional monomer such as methacrylate containing pendant al-koxyamine. In the second route, the alkoxyamine is grafted onto a polymer precursor used in a second step to initiate the living polymerization of a second monomer. PBd-g-PMA is prepared this way from PBd. [Pg.102]

See other pages where Step copolymerization synthesis is mentioned: [Pg.117]    [Pg.102]    [Pg.297]    [Pg.71]    [Pg.1171]    [Pg.218]    [Pg.222]    [Pg.82]    [Pg.4]    [Pg.78]    [Pg.81]    [Pg.19]    [Pg.29]    [Pg.46]    [Pg.48]    [Pg.112]    [Pg.306]    [Pg.256]    [Pg.930]    [Pg.145]    [Pg.131]    [Pg.145]    [Pg.208]    [Pg.123]    [Pg.175]    [Pg.45]    [Pg.4]    [Pg.196]    [Pg.25]    [Pg.91]    [Pg.10]    [Pg.87]    [Pg.253]   
See also in sourсe #XX -- [ Pg.137 , Pg.138 , Pg.139 ]

See also in sourсe #XX -- [ Pg.137 , Pg.138 , Pg.139 ]



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Step copolymerization

Step-growth copolymerization synthesis

Synthesis step

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