Multiscale dewetting of triblock copolymer thin film induced by solvent vapor

Zhu, Jintao; Zhao, Jiuzhou; Liao, Yonggui; Jiang, Wei

doi:10.1002/polb.20575

Cited by 15 publications

(12 citation statements)

References 56 publications

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“…[264][265][266][267] The adsorbed single macromolecules fundamentally differ being essentially planar (two-dimensional) structures and their behaviour is determined by different driving forces as compared to normally observed behaviour of thicker (usually, tens of nanometers) three-dimensional polymer films. [268,269] Thus, we are faced here with completely different mechanism to be discussed below. Similar dynamics was observed for 'longer' macromolecules, see also our works [210,211] for further experimental details.…”

Section: Vapour-induced Conformational Transitions Of Comb-like Macromentioning

confidence: 98%

Scanning Force Microscopy as Applied to Conformational Studies in Macromolecular Research

Gallyamov

2011

Macromol. Rapid Commun.

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The modern state of SFM research on polymer nano-objects including single chains is discussed in comparison with other similar high-resolution microscopy techniques. The range of problems to be solved preferentially by SFM is highlighted. Promising methodology to describe quantitatively the morphology of macromolecular objects is proposed. The main benefits of this algorithm seem to be the apparent mathematical correctness as well as the possibility to estimate errors and the confidence of the numbers obtained. Special attention is paid to the dynamic observations of conformational transitions on a substrate in real time regime. This approach allows one to realise direct control of the adsorbed macromolecules by means of exposure to different vapours. Driving forces of the vapour-induced reorganisation are discussed.

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Section: Vapour-induced Conformational Transitions Of Comb-like Macromentioning

confidence: 98%

Scanning Force Microscopy as Applied to Conformational Studies in Macromolecular Research

Gallyamov

2011

Macromol. Rapid Commun.

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“…[28] Block copolymer thin films-in contrast to homopolymer thin films-redistribute in a way that films of locally quantized film thicknesses are formed. [35][36][37][38] The driving force is the redistribution of polymer chains such that internal minimum energy configurations are achieved. The stable thicknesses correlate with the intrinsic structure periodicity, i.e., the equilibrium polymer domain spacing in microphase-separated block copolymers, typically referred to as L 0 .…”

Section: Hole/island Formationmentioning

confidence: 99%

“…Upon annealing, which is usually applied to induce block copolymer microphase separation, the polymer films become “structured liquids.” Block copolymer thin films—in contrast to homopolymer thin films—redistribute in a way that films of locally quantized film thicknesses are formed . The driving force is the redistribution of polymer chains such that internal minimum energy configurations are achieved.…”

Section: Microscale Modulation Of Bcp Film Topographymentioning

confidence: 99%

Nanoscale Block Copolymer Self‐Assembly and Microscale Polymer Film Dewetting: Progress in Understanding the Role of Interfacial Energies in the Formation of Hierarchical Nanostructures

Lindner

2019

Adv Materials Inter

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Block copolymer (BCP) self‐assembly (SA) can be exploited for next‐generation lithography for the advanced nanopatterning of surfaces with versatile nanoscale features. To render BCP‐SA suitable for the creation of tailored surface patterns, a fundamental understanding of interfacial interactions is crucial. This progress report gives an overview on the interplay of BCP microscale film thickness modulation and nanoscale microphase separation during BCP‐SA. Light is shed on the role of interfacial energies in both events. Microscale processes determining the topography of BCP films, i.e., hole/island formation and dewetting into droplets, are presented. Nanoscale microphase separation into energetically favorable pattern orientations in dependency on the polymer film thickness and influenced by surface polarities are discussed critically. Finally, examples are shown in which the combination of microscale dewetting and nanoscale microphase separation are exploited to create hierarchical nanostructures from BCPs. An outlook is given presenting successful applications of both mechanisms on prepatterned surfaces in order to control position and morphology of the hierarchical nanostructures. This approach is particularly promising for the creation of advanced surface architectures.

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“…Finally, hole nucleation occurred including homogeneous nucleation from surface undulations and heterogeneous nucleation from the impurities in the film. [47] Then the holes expanded during the annealing process to form the network structures and finally formed the droplets with the rupture of the network.…”

Section: Crystallization Behavior Of Ps-b-peo-b-ps Films Induced By Dmentioning

confidence: 99%

Solvent-Induced Crystallization of PS-b-PEO-b-PS Block Copolymer Films

Luo

Han

Gao

et al. 2010

Journal of Macromolecular Science, Part B

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Solvent-induced crystallization and dewetting behaviors of polystyrene-b-poly (ethylene oxide)-b-polystyrene (PS-b-PEO-b-PS) block copolymer films deposited on three different substrates, silicon, mica, and carbon-coated mica have been studied by atomic force microscope (AFM). When the common solvent dichloromethane was used for annealing, the films on all three of the substrates exhibited dewetting behavior; the dendritic crystallization patterns were found in the dewetted regions for the films on silicon and mica substrates, while for the films on carbon-coated mica, no crystallization pattern appeared. According to the observation of the crystallization patterns formed in the films with different initial thicknesses, it is shown that the width of the dendritic branches decreases with the increase of film thickness and solvent annealing time. When the PS-selective solvent toluene was used for annealing, the dewetting process was absent, and the crystallization patterns were observed on the surface of the films on all three kinds of substrates.

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Multiscale dewetting of triblock copolymer thin film induced by solvent vapor

Cited by 15 publications

References 56 publications

Scanning Force Microscopy as Applied to Conformational Studies in Macromolecular Research

Scanning Force Microscopy as Applied to Conformational Studies in Macromolecular Research

Nanoscale Block Copolymer Self‐Assembly and Microscale Polymer Film Dewetting: Progress in Understanding the Role of Interfacial Energies in the Formation of Hierarchical Nanostructures

Solvent-Induced Crystallization of PS-b-PEO-b-PS Block Copolymer Films

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