Formation of hydrated layers in PMMA thin films in aqueous solution

“…The volume fractions of all films are plotted as functions of distance from the Si/SiOx wafer or grafting surface, illustrating the structural information obtained from neutron reflectometry. The observed partially hydrated PMMA layer at the SiOx interface and the low solvation of the PMMA layer has been described previously . The thickness of protein layers exhibit minor variations between APTES and PMMA, and the APTES-PEG layers have higher hydration (Figure C,D) when compared with that of the PMMA-PEG layers (Figure A,B).…”

“…The observed partially hydrated PMMA layer at the SiOx interface and the low solvation of the PMMA layer has been described previously. 32 The thickness of protein layers exhibit minor variations between APTES and PMMA, and the APTES-PEG layers have higher hydration (Figure 2C,D) when compared with that of the PMMA-PEG layers (Figure A,B). In general, )), the thicknesses of the protein layers confirm that an approximate protein monolayer was formed on each surface.…”

“…nSLD values for the PMMA and PEG layers were calculated from the bulk densities of the molecules and were fixed during fitting at the calculated values. Recent studies of PMMA and PMMA–PEG thin films have shown that the nSLD values used are appropriate and characterize the layers well. Since the chemical composition of APTES layers can vary because of variations in the extent of hydrolysis during deposition reactions, the nSLD of APTES layers was not fixed during data fitting.…”

“…Deposition of PMMA and APTES Films. PMMA (∼120 kDa) films were prepared following a previously used procedure, 32 in which PMMA was suspended in toluene at 2.5 g L −1 and heated to 45 °C until no solid particles were visible. The solution was sonicated for 15 min using an Elmasonic S 30 ultrasonic bath (Elma Schmidbauer GmbH, Singen, Germany) and filtered through a 0.2 μM pore size PTFE filter (Raylab Ltd., Auckland, New Zealand).…”

Using Neutron Reflectometry to Characterize Antimicrobial Protein Surface Coatings

“…The volume fractions of all films are plotted as functions of distance from the Si/SiOx wafer or grafting surface, illustrating the structural information obtained from neutron reflectometry. The observed partially hydrated PMMA layer at the SiOx interface and the low solvation of the PMMA layer has been described previously . The thickness of protein layers exhibit minor variations between APTES and PMMA, and the APTES-PEG layers have higher hydration (Figure C,D) when compared with that of the PMMA-PEG layers (Figure A,B).…”

“…The observed partially hydrated PMMA layer at the SiOx interface and the low solvation of the PMMA layer has been described previously. 32 The thickness of protein layers exhibit minor variations between APTES and PMMA, and the APTES-PEG layers have higher hydration (Figure 2C,D) when compared with that of the PMMA-PEG layers (Figure A,B). In general, )), the thicknesses of the protein layers confirm that an approximate protein monolayer was formed on each surface.…”

“…nSLD values for the PMMA and PEG layers were calculated from the bulk densities of the molecules and were fixed during fitting at the calculated values. Recent studies of PMMA and PMMA–PEG thin films have shown that the nSLD values used are appropriate and characterize the layers well. Since the chemical composition of APTES layers can vary because of variations in the extent of hydrolysis during deposition reactions, the nSLD of APTES layers was not fixed during data fitting.…”

“…Deposition of PMMA and APTES Films. PMMA (∼120 kDa) films were prepared following a previously used procedure, 32 in which PMMA was suspended in toluene at 2.5 g L −1 and heated to 45 °C until no solid particles were visible. The solution was sonicated for 15 min using an Elmasonic S 30 ultrasonic bath (Elma Schmidbauer GmbH, Singen, Germany) and filtered through a 0.2 μM pore size PTFE filter (Raylab Ltd., Auckland, New Zealand).…”

Using Neutron Reflectometry to Characterize Antimicrobial Protein Surface Coatings

“…In these applications, a nonsolvent is used as a liquid. However, the aggregation states and physical properties of polymer chains are generally affected by the sorption of even nonsolvent molecules, especially in the interfacial region. − For example, the outermost surface of a typical glassy polymer, poly­(methyl methacrylate) (PMMA), in contact with nonsolvents such as methanol and water is diffused compared to the air-facing surface because chain segments can be partially dissolved in the liquid phase. − Also, in some cases, a swollen layer is formed just beneath the diffused interface, depending on the type of nonsolvents. , A similar phenomenon also occurs for other polymers such as acrylate-, − vinyl ether-, − ethylene oxide-, , and oxazoline-based , polymers in contact with water as a nonsolvent. Consequently, chain dynamics at the nonsolvent interface are well enhanced, ,,− drastically affecting the material’s functions. − …”

Modification of a Polymer Surface by Partial Swelling Using Nonsolvents

Applications of Polyvinylchloride (PVC)/Thermoplastic Nano-, Micro- and Macroblends