Cross-Linking-Induced Permanently Perpendicular Helix Orientation in Surface-Grafted Polyglutamate Films

Using a chemical cross-linking procedure, surface-grafted polyglutamate films with a permanently perpendicular helix orientation were prepared. A surface-grafted α-helical polyglutamate film containing polymerizable side groups was synthesized by ring-opening terpolymerization of 50 molar% γ-methyl-...

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Veröffentlicht in:	Langmuir 2007-07, Vol.23 (15), p.8163-8169
Hauptverfasser:	Luijten, Jeroen, Groeneveld, Daan Y, Nijboer, Gerard W, Vorenkamp, Eltjo J, Schouten, Arend J
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Sprache:	eng
Schlagworte:	Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry Surface physical chemistry
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container_end_page	8169
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container_title	Langmuir
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creator	Luijten, Jeroen Groeneveld, Daan Y Nijboer, Gerard W Vorenkamp, Eltjo J Schouten, Arend J
description	Using a chemical cross-linking procedure, surface-grafted polyglutamate films with a permanently perpendicular helix orientation were prepared. A surface-grafted α-helical polyglutamate film containing polymerizable side groups was synthesized by ring-opening terpolymerization of 50 molar% γ-methyl-l-glutamate N-carboxyanhydride (NCA), 30% γ-stearyl-l-glutamate NCA and 20% γ-4-vinylbenzyl-l-glutamate NCA initiated from a silicon substrate functionalized with primary amino groups. The average tilt angle of the end-grafted helices in this film is approximately 66°, indicating a nearly parallel helix orientation with respect to the substrate surface. After swelling of the grafted terpolyglutamate film in stearyl methacrylate and subsequent radical cross-linking, the average helix tilt angle decreases to about 11°, indicating an almost perpendicular helix orientation. The film thickness increases accordingly from 151 Å before to approximately 390 Å after cross-linking. Extensive solvent treatment of the cross-linked film shows that the perpendicular helix orientation is permanent.
doi_str_mv	10.1021/la7005106
format	Article
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A surface-grafted α-helical polyglutamate film containing polymerizable side groups was synthesized by ring-opening terpolymerization of 50 molar% γ-methyl-l-glutamate N-carboxyanhydride (NCA), 30% γ-stearyl-l-glutamate NCA and 20% γ-4-vinylbenzyl-l-glutamate NCA initiated from a silicon substrate functionalized with primary amino groups. The average tilt angle of the end-grafted helices in this film is approximately 66°, indicating a nearly parallel helix orientation with respect to the substrate surface. After swelling of the grafted terpolyglutamate film in stearyl methacrylate and subsequent radical cross-linking, the average helix tilt angle decreases to about 11°, indicating an almost perpendicular helix orientation. The film thickness increases accordingly from 151 Å before to approximately 390 Å after cross-linking. 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A surface-grafted α-helical polyglutamate film containing polymerizable side groups was synthesized by ring-opening terpolymerization of 50 molar% γ-methyl-l-glutamate N-carboxyanhydride (NCA), 30% γ-stearyl-l-glutamate NCA and 20% γ-4-vinylbenzyl-l-glutamate NCA initiated from a silicon substrate functionalized with primary amino groups. The average tilt angle of the end-grafted helices in this film is approximately 66°, indicating a nearly parallel helix orientation with respect to the substrate surface. After swelling of the grafted terpolyglutamate film in stearyl methacrylate and subsequent radical cross-linking, the average helix tilt angle decreases to about 11°, indicating an almost perpendicular helix orientation. The film thickness increases accordingly from 151 Å before to approximately 390 Å after cross-linking. 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subjects	Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry Surface physical chemistry
title	Cross-Linking-Induced Permanently Perpendicular Helix Orientation in Surface-Grafted Polyglutamate Films
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