Acrylic acid alkyl

Brisaert M, Plaizier-Vercammen. Investigation of the emulsifying properties of Pemulen TR 1, an acrylic acid alkyl methacrylate copolymer. STP Pharma Sciences 1997 7 438-444. 

Styrene-a-methylstyrene-acrylic acid-alkyl acrylate copolymer... 

Either PA-6 or PA-6,66, was blended with 1-50 wt% of a PA/LDPE laminated film scrap. As a compatibilizer, either an ethylene-acrylic acid-/-alkyl acrylate, ethylene-glycidyl acrylate, allyl glycidyl ether- -alkyl acrylate, ethylene-acrylic acid (or ester)-MA, or EMA, was used. The blends could also contain inorganic fillers, other resins, elastomers, and additives. The materials had good impact and notched impact strength, combined with stiffness and toughness. They have been used for the same applications as new materials, instead of having to be downcycled [40]. 

Additives acting on the pour point also modify the crystal size and, in addition, decrease the cohesive forces between crystals, allowing flow at lower temperatures. These additives are also copolymers containing vinyl esters, alkyl acrylates, or alkyl fumarates. In addition, formulations containing surfactants, such as the amides or fatty acid salts and long-chain dialkyl-amines, have an effect both on the cold filter plugging point and the pour point. 

The amide group is readily hydrolyzed to acrylic acid, and this reaction is kinetically faster in base than in acid solutions (5,32,33). However, hydrolysis of N-alkyl derivatives proceeds at slower rates. The presence of an electron-with-drawing group on nitrogen not only facilitates hydrolysis but also affects the polymerization behavior of these derivatives (34,35). With concentrated sulfuric acid, acrylamide forms acrylamide sulfate salt, the intermediate of the former sulfuric acid process for producing acrylamide commercially. Further reaction of the salt with alcohols produces acrylate esters (5). In strongly alkaline anhydrous solutions a potassium salt can be formed by reaction with potassium / /-butoxide in tert-huty alcohol at room temperature (36). 

Acrylic Esters. A procedure has been described for preparation of higher esters from methyl acrylate that illustrates the use of an acid catalyst together with the removal of one of the products by azeotropic distillation (112). Another procedure for the preparation of butyl acrylate, secondary alkyl acrylates, and hydroxyalkyl acrylates using -toluenesulfonic acid as a catalyst has been described (113). Alurninumisopropoxide catalyzes the reaction of amino alcohols with methyl acrylate and methyl methacrylate. A review of the synthesis of acryhc esters by transesterification is given in Reference 114 (see... 

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. 

The amount of polar monomer one would copolymerize with the alkyl acrylate monomer(s) very much depends on the type of polar monomer and the desired change in rheological properties one would like to achieve. Strong hydrogen bonding monomers, such as acrylic acid, methacrylic acid, acrylamide, or methacrylamide are typically used at levels of 12% or less of the total monomers. 

Enamine addition to an unsaturated ester, followed by an intramolecular alkylation, provided a facile synthesis of an adamantane bis-/3-ketoester 674). Michael addition of pyrrolidinocycloheptene to other acrylic esters 668) and of other enamines to acrylic acids 675), a chloroacrylonitrile 676), and an unsaturated cyanocarboxamide (577) were reported. 

AA sec acrylic acid abstraction sec hydrogen atom transfer abstraction v,v addition and micleophilicity 35 by aikoxy radicals 34-5, 124-5, 392 by alkoxycarbonyloxy radicals 103,127-8 by alkyl radicals 34 5, 113, 116 by f-amyloxy radicals 124 by arenethiyl radicals 132 by aryl radicals 35, 118 by benzovloxy radicals 35, 53, 120, 126 wilh MM a" 53, 120 by /-butovy radicals 35, 53, 55, 124 solvent effects 54, 55. 123 with alkenes 122 3 with ally I acrylates 122 wilh AMS 120, 123 wilh BMA 53, 123 with isopropenvl acetate 121 with MA 120 with MAN 121 with MMA 53, 55, 120.419 with VAc 121 with vinyl ethers 123... 

Aqueous, removable, pressure-sensitive adhesive compositions, useful for high-performance applications, comprise a mixture of a copolymer of alkyl (meth)acrylate and N-substituted (poly)amide of (meth)acrylic acid and a copolymer of alkyl (meth)acrylate and ethylenically unsaturated carboxylic acid, where at least one of the copolymers is an emulsion copolymer. Polyoxyalkyl-enes and phosphate esters may be used as surfactants [234]. 

Hydrostannation of chiral menthyl esters of substituted acrylic acids proceeds stereoselectiveiy, providing a route to optically active alkyl-... 

Carboxymethylcellulose, polyethylene glycol Combination of a cellulose ether with clay Amide-modified carboxyl-containing polysaccharide Sodium aluminate and magnesium oxide Thermally stable hydroxyethylcellulose 30% ammonium or sodium thiosulfate and 20% hydroxyethylcellulose (HEC) Acrylic acid copolymer and oxyalkylene with hydrophobic group Copolymers acrylamide-acrylate and vinyl sulfonate-vinylamide Cationic polygalactomannans and anionic xanthan gum Copolymer from vinyl urethanes and acrylic acid or alkyl acrylates 2-Nitroalkyl ether-modified starch Polymer of glucuronic acid... 

Compared with 3-alkyl-3-(acylamino)acrylic acid derivatives, much less success has been obtained in the asymmetric hydrogenation of 3-aryl-3-(acylamino)acrylic acid derivatives. An Et-FerroTANE-Rh catalyst has provided up to 99% ee for the hydrogenation of a series of (E)-3-aryl-3-(acylamino)acrylates.95 Since (E)-3-aryl-3-(acylamino)-acrylic acid derivatives are difficult to obtain in large scales compared to (Z)-3-aryl-3-(acylamino)acrylic acid... 

Alkylation of norbornene with acrylic acid derivatives occurs with ruthenium catalysts like [RuCl2(C6H6)]2/Zn in protic solvent.31 (,E)-o -2-norbonylacrylates are obtained with high regio- and stereoselectivity in good yields. 

Specific catalytic activity of the composites obtained was at least several times higher than the same value for the random copolymer Nafion (even in an esterification reaction considered to be a diffusion-uncontrolled reaction). For the oligomerization reaction of decene-1 with strong diffusion control, the specific catalytic activity of the composites was 35 times higher than that for the random copolymer. Esterification of acrylic acid and alkylation of mesitilene by a substituted phenol were also performed using the composite catalyst. 

Phases of extended length (C30) have been utilized for the separation of larger-size constrained solutes, such as carotenoids and steroids [27-29,93,106,107]. Apractical limit of alkyl chain length of C34 to C36 is imposed by the commonly employed silan-ization chemistry techniques [106]. Immobilization of longer alkyl stationary phases has been achieved through the use of poly(ethylene-co-acrylic acid) materials for use in carotenoid separations [27,28,93]. Rimmer et al. [28] have recently compared the selectivity of both alkyl and poly(ethylene-co-acrylic acid) stationary phases on the basis of separations of carotenoids in food matrices (Figure 5.12), in addition to mixtures of tocopherols and PAHs. 

Finally, dipolar and chemical shift correlation (DIPSHIFT) NMR was used to investigate the molecular motion and dynamics of the immobilized alkyl ligands of poly(ethylene-co-acrylic acid) stationary phases [164]. Through the measurement of the dipolar couplings, it was possible to discern the geometry of motion of... 

Polymer (PANI) poly(anUine) (PVA) poly(vinyl)alcohol (PSS) poly(styrene sulfonate) (PVS) poly(vinyl sulfonate) (PA) poly(acrylic acid) (PEG-DC) poly(ethylene glycol) di-carboxylate (PEG-AS) poly(ethylene glycol) alkyl (3-sulfopropyldiether). 

Reactions under quaternisation of exocyclic R2P-substituents have so far been applied exclusively to benzophospholide derivatives. The most convenient approach involves treatment of the substrate with an appropriate alkyl halide [27, 31, 35] or acrylic acid (Scheme 10) [27]. The quaternisation products formed are in general isolable without complication if pure starting materials have been employed as is normally the case for zwitterionic substrates. Anionic benzophospholides such as 29 and 30 are, in contrast, normally only accessible as crude product mixtures whose quaternisation affords mixtures of several phosphonium salts. Separation of the desired product may in these cases require lengthy work-up procedures and result in substantially lower yields [31]. 

Alkyl and 1-aralkyl-5,6-dihydrouracils (LXXIX), prepared by condensation of A -(2-carbamoylalkyl)aralkylamines with urea or by treating a suitable primary amine with an ester of acrylic acid followed by cyanic acid, are CNS depressants and anticonvulsants [639, 640], as well as anti-inflammatory agents [641]. Such compounds are to be compared with the corresponding barbituric acid derivatives in which not more than one hydrogen in the 5-position is substituted, and also with barbiturates in which the 5,5-substituents are similar to the R and groups of the 5,6-positions here. 

Many substituents stabilize the monomer but have no appreciable effect on polymer stability, since resonance is only possible with the former. The net effect is to decrease the exothermicity of the polymerization. Thus hyperconjugation of alkyl groups with the C=C lowers AH for propylene and 1-butene polymerizations. Conjugation of the C=C with substituents such as the benzene ring (styrene and a-methylstyrene), and alkene double bond (butadiene and isoprene), the carbonyl linkage (acrylic acid, methyl acrylate, methyl methacrylate), and the nitrile group (acrylonitrile) similarly leads to stabilization of the monomer and decreases enthalpies of polymerization. When the substituent is poorly conjugating as in vinyl acetate, the AH is close to the value for ethylene. 

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