表面处理和细胞附着。

In Vitro Pub Date : 1984-10-01 DOI:10.1007/BF02618296

W S Ramsey, W Hertl, E D Nowlan, N J Binkowski

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引用次数: 96

摘要

处理后的塑料表面的光电子能谱检查表明，表面氧化，主要是羧基，负责形成良好的生长表面。气体等离子体研究表明，只需要很短的暴露时间，并且影响仅限于产生粘附表面的薄表面层。使用氧化化学物质生产出高度粘合的表面。对聚合物酯的研究表明，未酯化的羧基对于高黏附性的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Surface treatments and cell attachment.

Photoelectron spectroscopic examination of treated plastic surfaces showed that surface oxidation, primarily as carboxyl groups, was responsible for formation of good growth surfaces. Gas-plasma studies indicated that only very short exposures were required and that the effect was confined to a thin surface layer that produced adhesive surfaces. Highly adhesive surfaces were produced using oxidizing chemicals. Studies with a polymeric ester demonstrated the importance of unesterified carboxyl groups for high adhesiveness.

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In Vitro

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