Acrylic Acid and Derivatives

Bauer, William

doi:10.1002/0471238961.0103182502012105.a01.pub2

Cited by 15 publications

(22 citation statements)

References 46 publications

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“…In the absence of aggregation, the pK a of the alkylammonium ions (with a chloride as a counterion) is equal to 10.64 ± 0.1, and is independent of the amine concentration or the alkyl chain length [67][68][69]. Furthermore, the pK a 's of acrylic acid and methacrylic acid are 4.26 and 4.66, respectively [70]. In diluted solutions, one can assume that the activity of water is equal to 1, and that the solutions are ideal (cf.…”

Section: Resultsmentioning

confidence: 99%

Self-assembly and influence of the organic counterion in the ternary systems dodecylamine/acrylic acid/water and dodecylamine/methacrylic acid/water

Hartmann¹,

Dieudonné²,

Sanderson³

2005

Journal of Colloid and Interface Science

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Section: Resultsmentioning

confidence: 99%

Self-assembly and influence of the organic counterion in the ternary systems dodecylamine/acrylic acid/water and dodecylamine/methacrylic acid/water

Hartmann¹,

Dieudonné²,

Sanderson³

2005

Journal of Colloid and Interface Science

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“…Historically, the polymerizable monomer has been manufactured by the hydrolysis of ethylene cyanohydrin (b-hydroxypropionitrile), by a Reppe process involving carbon monoxide addition to acetylene, by the reaction of formaldehyde with ketene, and by the hydrolysis of acrylonitrile. Today, acrylic acid is produced commercially by gas phase oxidation of propylene over heterogeneous catalysts [1]. Acrylic acid is used [2] in the production of superabsorbent polymers, detergents, and water treatments.…”

mentioning

confidence: 99%

“…Today, acrylic acid is produced commercially by gas phase oxidation of propylene over heterogeneous catalysts [1]. Acrylic acid is used [2] in the production of superabsorbent polymers, detergents, and water treatments. The various esters of acrylic acid are converted into acrylic polymers and copolymers that are used in a wide variety of products including architectural and industrial paints, coatings, floor polishes, adhesives, caulks, sealants, plastics additives, and dispersants.…”

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What is the enthalpy of formation of acrylic acid?

et al. 2007

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Acrylic acid is a key industrial compound with numerous uses. Despite its importance, its enthalpy of formation is still contentious-even ignoring ''ancient'' determinations, there is a 12 kJ mol -1 range of values reported for the gas phase quantity, -320 to -332 kJ mol -1 . Our quantum chemical calculations using current methodology suggest the value of -321 ± 3 kJ mol -1 .Keywords Acrylic acid Á Chemical industry Á Enthalpy of formation Á Entropy Á Gibbs energy of formation Á G2 and G3 quantum chemical calculations Á Polymers Á Propenoic acid Á Rotamers Acrylic acid (propenoic acid) is a key industrial compound. Historically, the polymerizable monomer has been manufactured by the hydrolysis of ethylene cyanohydrin (b-hydroxypropionitrile), by a Reppe process involving carbon monoxide addition to acetylene, by the reaction of formaldehyde with ketene, and by the hydrolysis of acrylonitrile. Today, acrylic acid is produced commercially by gas phase oxidation of propylene over heterogeneous catalysts [1]. Acrylic acid is used [2] in the production of superabsorbent polymers, detergents, and water treatments. The various esters of acrylic acid are converted into acrylic polymers and copolymers that are used in a wide variety of products including architectural and industrial paints, coatings, floor polishes, adhesives, caulks, sealants, plastics additives, and dispersants. As evidence of its commercial importance, in 2004, global production capacity of acrylic acid [3] was about 9 billion lbs (ca. 4 · 10 6 tons or 4 · 10 9 kg) of which about three-quarters was for captive (i.e., intra-company, as opposed to merchant, inter-company) uses. Demand growth has been averaging slightly better than GDP and selling prices has averaged ca. $0.85 per pound (1.4 e/kg) on the American market, and somewhat higher on the European and Asian markets.Acrylic acid is also the simplest unsaturated carboxylic acid and as such, is both an archetype of functionalized olefins and of carboxylic acids alike. Acrylic acid is additionally a conceptually simple example of a conjugated bifunctional species.Despite the considerable economic and conceptual importance of acrylic acid, its enthalpy of formation is still contentious-even ignoring ''ancient'' determinations, there is a 12 kJ mol -1 range of values for the gas phase quantity. Presenting chronologically and without bias, there is an earlier seemingly reliable determination of -383.8 ± 0.9 kJ mol -1 [4] arising from the analysis of liquid phase hydrogenation calorimetry measurements. We also find recent values for the enthalpy of formation in the liquid phase: -377.8 ± 9.3 [5] and -383.8 ± 2.0 [6] kJ mol -1 , arising from the combustion of a freshly distilled sample of unstated purity and of one contaminated by acetic acid and an added polymerization inhibitor. Much R. Notario (&) Á M. V. Roux

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“…Acrylic acid, prepared for the first time by the oxidation of acrolein in 1843 , is a very important intermediate that is involved in the synthesis of many polymers, paints, absorbents, detergents, adhesives, coatings, etc. There are two main industrial processes for the production of acrylic acid based on two intermediates derived from petrochemicals: acetylene and propene , . However, the acetylene‐based process was quickly abandoned in favor of the propene‐based one since that is more cost‐effective and easier to implement .…”

Section: Introductionmentioning

confidence: 99%

Dehydration of Lactic Acid: The State of The Art

et al. 2017

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The dehydration of lactic acid to produce acrylic acid is a renewable alternative to the mostly used production of acrylic acid from propene. In this review, the recent developments and state of the art for the dehydration of lactic acid to acrylic acid are presented and critically commented. The most recent publications on the topic are discussed inetail with respect to the observed catalysts and process performance data. Among the different catalysts developed, three main groups can be distinguished: zeolites, sulphates, and phosphates. The latter, especially hydroxyapatites, have recently attracted the attention of academics in particular. The three families of catalysts are discussed and the recent developments and technical drawbacks in the gas phase dehydration are reported.

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Acrylic Acid and Derivatives

Cited by 15 publications

References 46 publications

Self-assembly and influence of the organic counterion in the ternary systems dodecylamine/acrylic acid/water and dodecylamine/methacrylic acid/water

Self-assembly and influence of the organic counterion in the ternary systems dodecylamine/acrylic acid/water and dodecylamine/methacrylic acid/water

What is the enthalpy of formation of acrylic acid?

Dehydration of Lactic Acid: The State of The Art

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