Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1420507 | Dental Materials | 2016 | 11 Pages |
ObjectiveTo investigate the application of a new type of multiarm polymer resins in the formulation of Glass Ionic Cements.MethodsA series of star copolymers of t-butyl acrylate has been prepared by ATRP using a multiarm POSS-Br8 initiator. The resulting POSS-co-t-butyl acrylate star copolymers with eight arms were subsequently hydrolysed by trifluoroacetic acid to produce the corresponding POSS-co-acrylic acid star copolymers. All of the copolymers have been characterized by 1H and 13C NMR and FTIR spectroscopies and TGA/DSC. The as-prepared star copolymers were mixed with the glass powder from Fuji IX GP to produce the GIC samples for compression testing.ResultsThe new type of multiarm polymer resins have been shown to have narrow molecular weight distributions and thermal properties of the acrylic acid copolymers are similar to that of poly(acrylic acid), with a two stage degradation profile involving transitions at ≈140 °C and 250 °C, corresponding to anhydride formation and loss of carbon dioxide, respectively. In aqueous solution the POSS-co-acrylic acid copolymers form aggregates with ≈33 nm dimensions. When aqueous solutions of POSS-(PAA)8 are mixed with a glass powder, a rigid glass ionomer cement, GIC, is formed with a maximum compressive stress significantly greater than that for a linear PAA GIC of a comparable polymer molecular weight.SignificanceTherefore, these POSS-(PAA)8 copolymers demonstrate the potential for the application of well characterized star copolymers in the future development of new GICs as dental materials.
Graphical abstractA different approach has been adopted to form highly branched polyacrylic acid (PAA) copolymers based on octavinyl polyhedral oligomeric silsesquioxane (octavinyl POSS). t-butyl acrylate star polymers with eight arms have been prepared from octavinyl-POSS using ATRP, and then the tertiary butyl acrylate has been hydrolysed to form PAA stars with a narrow distribution of molecular weights and a POSS core. The preparation of the polymer resins and their applications in the formation of glass ionomer cement (GICs) have been investigated.Figure optionsDownload full-size imageDownload high-quality image (134 K)Download as PowerPoint slide