Block Copolymer Self-Assembly: Morphologies, Thermo-mechanical Behaviors and Kinetic Pathways

嵌段共聚物自组装：形态、热机械行为和动力学途径

• 批准号: 9531914
• 负责人: Zhen-Gang Wang
• 金额: $ 14.6万
• 依托单位: California Institute of Technology
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 1996
• 资助国家: 美国
• 起止时间: 1996-04-01 至 2001-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=9531914&HistoricalAwards=false
• 关键词: Block; Copolymer; Self; Assembly; Morphologies

9531914 Wang Motivated by the high promise of block copolymers as materials for nanotechnology, and by their intrinsic scientific interest as model systems for self-assembling complex fluids, a systematic program of theoretical investigations will be undertaken on a number of topics involving self-assembled block copolymer nanostructures using statistical mechanical techniques. Some of these topics deal with phenomenologies that are expected to apply to a large class of amphiphilic systems, while others are unique to block copolymers. The thermo-mechanical properties of ordered nanostructures of block copolymers will be studied. By including mechanical stress or strain, a new dimension is added to the study of self-assembling complex fluids. Focus will be on various thermo-mechanical instabilities and phase transitions that occur when an ordered nanostructure is subjected to anisotropic stress or strain. Some of these instabilities and transitions are unique to ordered block copolymer nanostructures and are manifestations of length- scale dependent ordering,i.e., fluid-like behavior on the monomer scale and solid-like on the polymer length-scale. Also to be studied will be kinetic pathways of order- disorder and order-order transitions in diblock copolymers using a time-dependent Ginzburg-Landau approach. Focus will be on possible non-trivial intermediate states during the various transitions after a sudden change in the system parameters. Of special interest will be the existence of the so-called pseudo-stable states which correspond to saddle points on the free energy surfaces. These states will be explored both dynamically and in equilibrium. Finally, the phase behavior and nanostructures of ABC triblock copolymers will be studied using self-consistent field techniques. In contrast to the better studied AB diblocks, a fundamentally new feature here is that the morphological structures and phase behaviors depend not only on the fraction of ea ch block and the overall molecular weight, but also crucially on the sequence of the blocks in the chain and on the relative strengths of the interactions between the three unlike pairs of blocks. %%% This new award is to support theoretical research on nanostructure and phase transitions in block copolymers. The research particularly looks at the behavior of this important class of polymers when subjected to mechanical forces. In addition to providing insight into fundamental issues in polymer physics, the results will also be useful in applications of this class of polymers for practical use. ***

9531914 Wang由于嵌段共聚物作为纳米技术材料的高前景，以及它们作为自组装复杂流体的模型系统的内在科学兴趣，将对一些涉及使用统计力学技术的自组装嵌段共聚物纳米结构的主题进行系统的理论研究。 其中一些主题处理的现象，预计将适用于一个大类的两亲性系统，而另一些是独特的嵌段共聚物。 研究了嵌段共聚物有序纳米结构的热机械性能。 通过包括机械应力或应变，为自组装复杂流体的研究增加了一个新的维度。 重点将放在各种热机械不稳定性和相变时发生的有序纳米结构受到各向异性应力或应变。 这些不稳定性和转变中的一些是有序嵌段共聚物纳米结构所特有的，并且是长度尺度依赖性有序的表现，即，单体尺度上的类流体行为和聚合物长度尺度上的类固体行为。 还将研究的动力学途径的有序-无序和有序-有序的转变，在两嵌段共聚物中使用的时间依赖的金兹伯格-朗道方法。 重点将放在可能的非平凡的中间状态，在系统参数突然变化后的各种过渡。 特别令人感兴趣的是存在所谓的伪稳定状态，对应于自由能表面上的鞍点。 这些状态将在动态和平衡中进行探索。 最后，将使用自洽场技术研究ABC三嵌段共聚物的相行为和纳米结构。 与研究得更好的AB二嵌段相比，这里的一个根本性的新特征是形态结构和相行为不仅取决于每个嵌段的分数和总分子量，而且关键地取决于链中的嵌段的顺序和三个不同嵌段对之间的相互作用的相对强度。 这个新的奖项是为了支持嵌段共聚物中纳米结构和相变的理论研究。 该研究特别关注这类重要聚合物在受到机械力时的行为。 除了提供洞察聚合物物理学的基本问题，结果也将是有用的，这类聚合物的实际应用。 ***