An efficient process for synthesizing and hydrolyzing a phosphonated methacrylate: Investigation of the adhesive and anticorrosive properties

Asri, Zhor El; Chougrani, Kamel; Negrell-Guirao, Claire; David, Ghislain; Boutevin, Bernard; Loubat, Cédric

doi:10.1002/pola.22813

Cited by 45 publications

(56 citation statements)

References 38 publications

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“…[18][19][20] Phosphorylated proteins are of great importance to control and regulate biomineralization progress in living organisms. [ 21 ] Inspired by these phosphate-containing biomaterials, phosphate functional groups are introduced to polymeric materials to achieve adhesive and anticorrosion properties, [ 22,23 ] and these materials were used for biomedical applications such as dental applications, tissue engineering, and drug delivery. [ 24 ] For instance, surface graft polymerization of a phosphatecontaining monomer onto a polymeric material significantly promotes bonding of the polymer to bone, and the resulting phosphate-containing polymer has a high affi nity for hydroxyapatite (HA).…”

Section: Introductionmentioning

confidence: 99%

Humid Bonding with a Water‐Soluble Adhesive Inspired by Mussels and Sandcastle Worms

Jia

et al. 2014

Macro Chemistry & Physics

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Inspired by mussels and sandcastle worms, a water-soluble adhesive is prepared by grafting catechol and phosphoric acid functionalities to the polyoxetane backbone, which achieves improved adhesion in humid environment. The adhesive is characterized by 1 H and 31 P NMR spectroscopy and size-exclusive chromatography. The infl uence of the content ratio of catechol and different phosphoric acid groups and the Fe 3+ ions as the crosslinker on the outcome of the adhesive properties is investigated. When the molar ratio of Fe 3+ to catechol and PO 4 is 1/1 and 0.7/1, respectively, the best bonding strength of 0.35 MPa is achieved for the adhesive containing 5 mol% catechol and 26 mol% bis-phosphoric acid groups under humid conditions. It is found out that Fe 3+ interacts not only with the catechol, but also with the bis-phosphoric acid groups, which accounts for its performance in humid conditions.

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Section: Introductionmentioning

confidence: 99%

Humid Bonding with a Water‐Soluble Adhesive Inspired by Mussels and Sandcastle Worms

Jia

et al. 2014

Macro Chemistry & Physics

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“…In the other hands, we have already demonstrated the high capacity of phosphonate group, grafted to a polyacrylate backbone, for promoting adhesion towards metallic surface and hence preventing such surface against corrosion [15,18]. In this paper we have chemically grafted phosphonate group onto PVB in order to increase efficiency of PVB coatings against corrosion.…”

Section: Resistance To Corrosionmentioning

confidence: 95%

“…From the empirical data presented, it is apparent that the presence of phosphonate group is directly responsible for the excellent adhesion and anticorrosive properties. Furthermore, we have previously demonstrated [15] that phosphonic acid groups show stronger adhesion than the corresponding phosphonate groups. Since PVAP3 contains about 20 mol% of phosphonate groups, the cleavage of these functions would lead to very high performance coatings to efficiently prevent metallic surface against corrosion.…”

Section: Resistance To Corrosionmentioning

confidence: 95%

“…Commercial anti-corrosion polymer compounds are generally formed from Sipomer Ò or Phosmer Ò monomers, which are phosphate-type (meth)acrylates [5,6]. Polymers with some phosphonate functionality have long been established as excellent adhesives and anti-corrosion compounds, [7][8][9][10][11][12][13][14] and recently there has been investigation into the use of phosphonate-type methacrylates for the same purpose [15]. For instance, Lam et al [16] synthesized a methacrylate terpolymer, bearing phosphonic acid and n-butyl side groups, which was incorporated in a UV acrylate formulation.…”

Section: Introductionmentioning

confidence: 99%

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Grafting of phosphonate groups onto PVA by acetalyzation. Evaluation of the anti-corrosive properties for the acetalyzed PVA coatings

David

Ortega

Chougrani

et al. 2011

Reactive and Functional Polymers

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“…In this respect, most recent works concern the synthesis of acrylate or methacrylate polymers. [12][13][14] Concerning the development of phosphonic acid-containing high-performance polymers, very little work has been reported. 15 Moreover, to the best of our knowledge, such polymers have not been tested as anticorrosion coatings.…”

Section: Introductionmentioning

confidence: 99%

Phosphonic acid‐containing polysulfones as anticorrosive layers

Chauveau

Marestin

Merçier

et al. 2015

J of Applied Polymer Sci

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International audienceAs a part of research work to elaborate polymeric materials for metal corrosion protection, we have developed a new family of phosphonic acid-containing polymers. The synthesis and the characterization of polysulfones bearing alkyl phosphonate ester side groups are first described. These polymers are synthesized by direct polycondensation of a phosphonate ester-containing bisphenol by aromatic nucleophilic substitution. The physicochemical properties of the resulting polymers are described. Acidic hydrolysis of phosphonate esters results in the formation of phosphonic acid groups. A series of phosphonic acid-containing polysulfones is therefore obtained and characterized. A preliminary evaluation of the anticorrosive properties of these polymers is described. In 0.25M Na2SO4 solution, the corrosion rate of a polymer-coated mild steel sample is much lower than of the free metal substrate. These results suggest that phosphonic acid-containing polysulfones might be interesting as anticorrosive coatings

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An efficient process for synthesizing and hydrolyzing a phosphonated methacrylate: Investigation of the adhesive and anticorrosive properties

Cited by 45 publications

References 38 publications

Humid Bonding with a Water‐Soluble Adhesive Inspired by Mussels and Sandcastle Worms

Humid Bonding with a Water‐Soluble Adhesive Inspired by Mussels and Sandcastle Worms

Grafting of phosphonate groups onto PVA by acetalyzation. Evaluation of the anti-corrosive properties for the acetalyzed PVA coatings

Phosphonic acid‐containing polysulfones as anticorrosive layers

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