具有垂直化学梯度的等离子体聚合物薄膜对疏水恢复的抑制作用。

Suppression of Hydrophobic Recovery by Plasma Polymer Films with Vertical Chemical Gradients.

作者信息

Hegemann Dirk, Lorusso Emanuela, Butron-Garcia Maria-Isabel, Blanchard Noémi E, Rupper Patrick, Favia Pietro, Heuberger Manfred, Vandenbossche Marianne

机构信息

Laboratory of Advanced Fibers, Swiss Federal Laboratories for Materials Science and Technology, Empa , Lerchenfeldstrasse 5, 9014 St. Gallen, Switzerland.

Department of Chemistry, University of Bari , Via Orabona 4, 70126 Bari, Italy.

出版信息

Langmuir. 2016 Jan 26;32(3):651-4. doi: 10.1021/acs.langmuir.5b03913. Epub 2016 Jan 13.

DOI:10.1021/acs.langmuir.5b03913

PMID:26716609

Abstract

Vertical chemical gradients extending over a few nanometers were explored. The gradients are based on plasma-polymerized oxygen-containing ethylene (ppOEt) films. Using plasma conditions with low CO2/C2H4 ratio and high energy input, cross-linked films were deposited as base layer, while increasing CO2 and lowering energy input resulted in less cross-linked yet highly functional films as applied as top layer. Aging studies indicate that, in particular, for very thin gradient structures, the cross-linked subsurface zone effectively hinders reorientation of the surface functional groups, thus restricting hydrophobic recovery and oxidation effects.

摘要

研究了延伸几纳米的垂直化学梯度。这些梯度基于等离子体聚合的含氧乙烯（ppOEt）薄膜。使用低CO2/C2H4比和高能量输入的等离子体条件，沉积交联薄膜作为底层，而增加CO2并降低能量输入则产生交联较少但功能高度的薄膜作为顶层。老化研究表明，特别是对于非常薄的梯度结构，交联的次表面区域有效地阻碍了表面官能团的重新取向，从而限制了疏水恢复和氧化作用。

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具有垂直化学梯度的等离子体聚合物薄膜对疏水恢复的抑制作用。

Suppression of Hydrophobic Recovery by Plasma Polymer Films with Vertical Chemical Gradients.

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