Gallyamov M O, Tartsch B, Potemkin I I, Börner H G, Matyjaszewski K, Khokhlov A R, Möller M
Faculty of Physics, M. V. Lomonosov Moscow State University, Leninskie gory 1-2, GSP-1, 119991, Moscow, Russia.
Eur Phys J E Soft Matter. 2009 May;29(1):73-85. doi: 10.1140/epje/i2009-10451-5. Epub 2009 May 6.
We prepared dense films of adsorbed brush-like macromolecules on mica substrate by transfer of compressed Langmuir monolayers from water subphase. The main macromolecular contours in the dense films were clearly resolved by SFM. The films were subjected to successive treatments by ethanol and water vapours. In accordance with previous results for isolated macromolecules, the films underwent collapse and subsequent decollapse morphological transformations in the changing vapour environment. Statistical analysis of the macromolecular dimensions in the films allowed us to measure the values of the scaling exponent nu determining the correlation between mean lateral and linear dimensions of the macromolecules. The analysis showed that the macromolecular conformations in the film as transferred were similar to the previously described conformations of the same macromolecules deposited directly on mica as isolated chains at much lower surface densities. The determined nu was close to the 0.75 value corresponding to the 2D SAW statistics. We assumed that the molecules retained the high degree of extension during the compression step due to suppressed reorganisation of the side chains. Differently from previous observations for isolated macromolecules, the restored conformations in the dense films after collapse-decollapse cycle were more extended with the nu of about 0.73 value. A theoretical explanation of the high degree of re-extension is proposed.
我们通过从水亚相转移压缩的朗缪尔单分子层,在云母基底上制备了吸附刷状大分子的致密薄膜。通过扫描力显微镜(SFM)清晰地分辨出致密薄膜中主要的大分子轮廓。对这些薄膜依次进行乙醇和水蒸气处理。根据先前对孤立大分子的研究结果,在不断变化的蒸汽环境中,薄膜经历了塌陷以及随后的解塌陷形态转变。对薄膜中大分子尺寸的统计分析使我们能够测量标度指数ν的值,该值决定了大分子平均横向尺寸和线性尺寸之间的相关性。分析表明,转移后的薄膜中的大分子构象与先前描述的相同大分子以低得多的表面密度直接作为孤立链沉积在云母上的构象相似。所确定的ν接近对应二维自回避行走(SAW)统计的0.75值。我们认为,由于侧链的重组受到抑制,分子在压缩步骤中保持了高度伸展。与先前对孤立大分子的观察不同,在塌陷 - 解塌陷循环后致密薄膜中恢复的构象更加伸展,ν约为0.73值。本文提出了对高度重新伸展的理论解释。