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16-September-2008 16:20:33 - Polymerization An example of alkene polymerization, in which each Styrene monomer unit's double bond reforms as a single bond with another styrene monomer and forms polystyrene. An example of alkene polymerization, in which each Styrene monomer unit's double bond reforms as a single bond with another styrene monomer and forms polystyrene. In polymer chemistry, polymerization is a process of reacting monomer molecules together in a chemical reaction to form three-dimensional networks or polymer chains 1 2 3. There are many forms of polymerization and different systems exist to categorize them. The main categories are Addition polymerization Condensation polymerization Contents 1 Introduction 2 Chain-growth 3 Step-growth 4 See also 5 References Introduction Single-monomer formed polymers A + A + A... \rightarrow AAA ... Co-polymers A + B + A... \rightarrow ABA ... In chemical compounds, polymerization occurs via a variety of reaction mechanisms which vary in complexity due to functional groups present in reacting compounds4 and their inherent steric effects explained by VSEPR Theory. In more straightforward polymerization, alkenes, which are a relatively stable due to σ bonding between carbon atoms form polymers through relatively simple radical reactions; conversely, more complex reactions such as those that involve substitution at the carbonyl atom require more complex synthesis due to the way in which reacting molecules polymerize.4 As alkenes can be formed in somewhat straightforward reaction mechanisms, they form useful compounds such as polyethylene and polyvinyl chloride PVC when undergoing radical reactions,4 which are produced in high tonnages each year4 due to their usefulness in manufacturing processes of commercial products, such as piping, insulation and packaging. Polymers such as PVC are generally referred to as singular polymers as they consist of repeated long chains or structures of the same monomer unit, whereas polymers that consist of more than one molecule are referred to as co-polymers. Other monomer units, such as formaldehyde hydrates or simple aldehydes, are able to polymerize themselves at quite low temperatures -80oC to form trimers;4 molecules consisting of 3 monomer units which can cyclize to form ring cyclic structures, or undergo further reactions to form tetramers,4 or 4 monomer-unit compounds. Further compounds either being referred to as oligomers4 in smaller molecules. Generally, because formaldehyde is an exceptionally reactive electrophile it allows nucleophillic addition of hemiacetal intermediates, which are generally short lived and relatively unstable mid stage compounds which react with other molecules present to form more stable polymeric compounds. Polymerization that is not sufficiently moderated and proceeds at an undesirably fast rate can be very hazardous. This phenomenon is known as Hazardous polymerization and can cause fires and explosions. Chain-growth Main article: Chain-growth polymerization Chain-growth polymerization or addition polymerization involves the linking together of molecules incorporating double or triple chemical bonds. These unsaturated monomers the identical molecules which make up the polymers have extra internal bonds which are able to break and link up with other monomers to form the repeating chain. Addition polymerization is involved in the manufacture of polymers such as polyethylene, polypropylene and polyvinyl chloride PVC. A special case of addition polymerization leads to living polymerization. In the polymerization of ethylene, its pi bond is broken and these two electrons rearrange to create a new propagating center like the one that attacked it. The form this propagating center takes depends on the specific type of addition mechanism. There are several mechanisms through which this can be initiated. The free radical mechanism was one of the first methods to be used. Free radicals are very reactive atoms or molecules which have unpaired electrons. Taking the polymerization of ethylene as an example, the free radical mechanism can be divided in to three stages: chain initiation, chain propagation and chain termination. Polymerization of ethylene Polymerization of ethylene Free radical addition polymerization of ethylene must take place at high temperatures and pressures, approximately 300°C and 2000 At. While most other free radical polymerizations do not require such extreme temperatures and pressures, they do tend to lack control. One effect of this lack of control is a high degree of branching. Also, as termination occurs randomly, when two chains collide, it is impossible to control the length of individual chains. A newer method of polymerization similar to free radical, but allowing more control involves the Ziegler-Natta catalyst especially with respect to polymer branching. Other forms of addition polymerization include cationic addition polymerization and anionic addition polymerization. While not used to a large extent in industry yet due to stringent reaction conditions such as lack of water and oxygen, these methods provide ways to polymerize some monomers that cannot be polymerized by free radical methods such as polypropylene. Cationic and anionic mechanisms are also more ideally suited for living polymerizations, although free radical living polymerizations have also been developed. Step-growth Main article: Step-growth polymerization Step growth polymers are defined as polymers formed by the stepwise reaction between functional groups of monomers. Most step growth polymers are also classified as condensation polymers, but not all step growth polymers like polyurethanes formed from isocyanate and alcohol bifunctional monomers release condensates. Step growth polymers increase in molecular weight at a very slow rate at lower conversions and only reach moderately high molecular weights at very high conversion i.e. 95%. To alleviate inconsistencies in these naming methods, adjusted definitions for condensation and addition polymers have been developed. A condensation polymer is defined as a polymer that involves elimination of small molecules during its synthesis, or contains functional groups as part of its backbone chain, or its repeat unit does not contain all the atoms present in the hypothetical monomer to which it can be degraded. See also Plasma polymerization Ziegler-Natta catalyst Metallocene Glurch References ^ Introduction to Polymers 1987 R.J. Young Chapman Hall ISBN 0-412-22170-5 ^ International Union of Pure and Applied Chemistry, et al. 2000 IUPAC Gold Book Retrieved on 11 May 2007 from IUPAC Gold Book on http://goldbook.iupac.org/ ^ Clayden, J., Greeves, N. et al. 2000. Organic chemistry Oxford ^ a b c d e f g Clayden, J., Greeves, N. et al. 2000, p1450-1466 Retrieved from http://en..org/wiki/Polymerization Categories: Polymer chemistry Views Article Discussion this page History Personal tools Log in / create account Navigation Main page Contents Featured content Current events Random article Search Go Search Interaction Community portal Recent changes Contact Donate to Help Toolbox What links here Related changes Upload file Special pages Printable version Permanent link Cite this page Languages العربية Bosanski Català Česky Deutsch Español Français Galego Hrvatski Bahasa Indonesia עברית МакедонÑ?ки Nederlands 日本語 ‪Norsk bokmÃ¥l‬ Polski Português РуÑ?Ñ?кий SlovenÄ?ina СрпÑ?ки / Srpski Basa Sunda Suomi Svenska ไทย Tiếng Việt УкраїнÑ?ька ä¸æ–‡ This page was last modified on 29 July 2008, at 16:00
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