Precursor polymer preparation chloride

One of the most innovative and useful techniques for the preparation of conducting polymers has been the synthesis of highly soluble precursor polymers that can be easily handled in solution, purified, and then later converted to the less tractable conducting polymer. The first example of such an approach was the dehydrohalogenation of poly(vinyl chloride) (102). This reaction, like most elimination reactions on polymers, rarely goes to completion and is not well suited for the synthesis of useful conducting... 

Good optical quality thin films of PAV have been prepared through a new precursor polymer that is soluble in organic solvents [16]. For example, PTV thin film can be fabricated as follows. Polymerisation of a sulfonium monomer, 2,5-thienylene bis(methylene-dimethyl-sulfonium chloride), is carried out in a methanol-water mixture... 

Fukukawa et al. prepared semialicyclic fluorinated polyhydroxyamide (PAHA) containing adamantyl units by the reaction of 1,3-adamantanedicarbonyl chloride (ADC) and 4,4 -(hexafluoroisopropylidene) bis(c-aminophenol) (6FAP). Corresponding PBOs (Figure 5.35) were obtained by thermal treatment of the PAHA. The precursor polymers were soluble in... 

Tan et al. explored the synthesis of monomers that are monofunctional. They have synthesized two hypercrosslinked polymer networks of bishy-dro>ymethyl monomers, e.g., 1,4-benzenedimethanol (BDM), and mono-hydro>ymethyl compounds, e.g., benzyl alcohol (BA) by self-condensation. Precursors of polymers like polystyrene and poly(chloromethylstyrene) ° that are swollen, as well as polyfunctional benzyl chlorides, are synthesized by Friedel-Crafts allq lation in the presence of a Lewis acid. Hydroxymethyl and chloromethyl form a bond with the benzene ring in the presence of an acid catalyst,leading to the design of a new series of hypercrosslinked polymers prepared by directly using the building blocks of hydro)g7methyl aromatics (Figure 3.2). 

Two different PPV precursor polymers, polyfxylylidene tetrathiophenium chloride), I, and poly(p-xylylene-a-dimethylsulphonium chloride), II, were used to coat the sulfonated PS beads. PPV precursors I and II were prepared as described in the literature.The elemental analysis of the bis-sulphonium monomers and the infrared spectra of the PPV films obtained from I and II were found to agree with published data. 

PPV (62a) has been prepared by a number of different methods which were studied in detail by Horhold and Opfermann [390]. It can be synthesized by bifunctional carbonyl olefination of terephthalaldehyde according to Wittig s reaction and from />-xylylene-bis(diethyl phosphonate), as well as by dehydrochlorination of/p-xylylene dichloride with sodium hydride in A jiV-dimethylformamide and with potassium amide in liquid ammonia. The most popular route to PPV used today is the precursor route, first described by Wessling and Zimmermann [391-394] and Kanabe and Okawara [395], starting from the monomers p-xylylene-bis(di-methylsulphonium tetrafluoroborate) [395] or chloride (Scheme 11.17) [391-394]. The latter is polymerized to yield a water soluble sulphonium salt polyelectrolyte (63d) which is then purified by dialysis [396]. The precursor polymer is converted to PPV (63e) by the thermal elimination of dimethyl sulphide and HCl. The method was later developed by Horhold et al. [397], Lenz and co-workers [398,399], Murase et al. [400] and Bradley [401], One of the major improvements within the last years has been the use of tetrahydrothio-phene instead of dimethyl sulphide in the synthesis of the precursor polymer [402]. The use of the cyclic leaving group facilitates the elimination when the precursor polymers is heated at 230-300°C and leads... 

Tomoi and coworkers adopted a somewhat more direct approach in their synthesis of 16-crown-5 derivatives bearing a single alkenyl residue. They hoped to obtain precursors to polymers which could be used as phase transfer catalysts. In this approach I,I-bis-chloromethylethylene (a-chloromethallyl chloride) was allowed to react with the dianion of tetraethylene glycol (NaH/THF). By this method, methylene-16-crown-5 could be isolated in 66% yield after vacuum distillation. Ozonolysis led, in almost quantitative yield, to the formation of oxo-16-crown-5 as shown in Eq. (3.38). These authors prepared a number of other, closely related species by similar methods. 

Japanese workers prepared examples of 2-alkenyl-4,5-oxazolediones 40a and 40b, which are key intermediates in the synthesis of alkenoyl isocyanates 41a and 41b (Scheme 6.13). These reactive monomers are precursors to a variety of functionalized polymers including instantaneously curable compositions. Thus, reaction of oxalyl chloride with acrylamide 39a or methacrylamide 39b affords 40a and 40b isolated as hydrochloride salts in high yields. Subsequent decomposition of the 2-alkenyl-4,5-oxazolediones in the presence of a metal halide or synthetic zeolite affords 41a and 41b contaminated with varying amounts of 42a and 42b. The synthesis and reactions of other 2-substituted 4,5-oxazolediones have been described independently by Speziale and co-workers ° and Sasaki and co-workers. ... 

Carbon materials were obtained from polymeric precursors produced by chemical dehydrochlorination of polyvinyl chloride-polyvinyUdene chloride and chlorinated polyvinyl chloride in the presence of a strong base, followed by subsequent thermal treatment under relatively mild conditions. The sorbents obtained have three types of pores ultra-micropores, miaopores, and mesopores. hi this respect, they differ substantially from microporous activated carbons such as Saran, conventionally prepared from chlorinated polymers by thermal treatment without chemical dehydrochlorination. 

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