Self-Assembly of a Midblock-Sulfonated Pentablock Copolymer in Mixed Organic Solvents: A Combined SAXS and SANS Analysis

Mineart, Kenneth P.; Ryan, J. J.; Appavou, Marie‐Sousai; Lee, Byeongdu; Gradzielski, Michael; Spontak, Richard J.

doi:10.1021/acs.langmuir.8b03825

Cited by 13 publications

(11 citation statements)

References 54 publications

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“…This has been widely exploited and several examples are available in the literature for various types of systems, i.e. microemulsions (Arleth & Pedersen, 2001), nanodiscs (Skar-Gislinge et al, 2010), the self-assembly of polymers into toroids (Hollamby et al, 2016) and micelles (Mineart et al, 2019), and in the case of specifically deuterated proteins in solution (Whitten et al, 2007;Heller et al, 2003).…”

Section: (A) (Bayburtmentioning

confidence: 99%

Global fitting of multiple data frames from SEC–SAXS to investigate the structure of next-generation nanodiscs

Barclay

Johansen

Tidemand

et al. 2022

Acta Crystallogr D Struct Biol

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The combination of online size-exclusion chromatography and small-angle X-ray scattering (SEC–SAXS) is rapidly becoming a key technique for structural investigations of elaborate biophysical samples in solution. Here, a novel model-refinement strategy centred around the technique is outlined and its utility is demonstrated by analysing data series from several SEC–SAXS experiments on phospholipid bilayer nanodiscs. Using this method, a single model was globally refined against many frames from the same data series, thereby capturing the frame-to-frame tendencies of the irradiated sample. These are compared with models refined in the traditional manner, in which refinement is based on the average profile of a set of consecutive frames from the same data series without an in-depth comparison of individual frames. This is considered to be an attractive model-refinement scheme as it considerably lowers the total number of parameters refined from the data series, produces tendencies that are automatically consistent between frames, and utilizes a considerably larger portion of the recorded data than is often performed in such experiments. Additionally, a method is outlined for correcting a measured UV absorption signal by accounting for potential peak broadening by the experimental setup.

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Section: (A) (Bayburtmentioning

confidence: 99%

Global fitting of multiple data frames from SEC–SAXS to investigate the structure of next-generation nanodiscs

Barclay

Johansen

Tidemand

et al. 2022

Acta Crystallogr D Struct Biol

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“…In one of these examples, the SPC was dried before dissolving in the solvent, 21 but the other study did not specify the water content. 22 As polymer loading in the solvent is increased, the SPC can assemble into either ordered or disordered morphologies, depending on the solvent composition. For example, when the SPC is dissolved in nP/ T solvent mixtures at a loading of 20 wt %, which includes 20 wt % water from storage at ambient humidity, the structure after 2 days of dissolution at room temperature is lamellar (LAM) for 29−36 wt % nP and disordered (DIS) for 40−50 wt % nP.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

“…In this work, we studied the effects of trace water on self-assembly of a sulfonated pentablock copolymer (SPC), poly( tert -butylstyrene- b -hydrogenated isoprene- b -sulfonated styrene- b -hydrogenated isoprene- b - tert -butylstyrene) (tBS-HI-SS-HI-tBS). The solution-state self-assembly of this SPC has been studied in prior works, and depending on the polymer concentration and solvent polarity, the SPC can either dissolve into free chains or assemble into spheres, lamellae, and disordered nanoscale aggregates. ,− The structures of solution-cast SPC films have also been studied, and morphologies such as lamellae, cylinders, and spheres have been observed depending on the solvent type used for casting. ,− Trace water is difficult to avoid during the solution processing of SPC into films as the material soaks up water when stored at ambient humidity due to the hygroscopic sulfonated midblock. , As a result, the solution will contain small amounts of water (ca. 1–5 wt %) unless the polymer is dried prior to dissolution or the solution is dried prior to use.…”

Section: Introductionmentioning

confidence: 99%

Effects of Trace Water on Self-Assembly of Sulfonated Block Copolymers During Solution Processing

Madathil

Lantz

Stefik

et al. 2020

ACS Appl. Polym. Mater.

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Solution-cast films of sulfonated block copolymers are investigated for applications in water purification, gas separations, and fuel cells. It is well known that solvent composition influences the structures that form in solutions of sulfonated block copolymers and in the corresponding films. The solutions often contain trace water due to the hygroscopic nature of sulfonated polymers, and the effect of trace water on structure formation has not been previously explored. Water will drive dissociation of sulfonic acid, which in turn might accelerate the rearrangement of polymer chains by disrupting hydrogen bonds between acid groups. In this work, we examine the effects of trace water on the solution-state structure of a sulfonated pentablock copolymer (SPC) and the ultimate film morphology using smallangle X-ray scattering. The solvent used was a mixture of toluene and n-propanol with varying molar ratios of water to sulfonic acid (λ). In solutions with λ = 0, the SPC adopts a disordered structure. The addition of trace water (λ = 3.2) to SPC solutions drives a rapid self-assembly into an ordered lamellar structure. However, the presence of trace water in the solution has little effect on processing the SPC into films as water will rapidly escape from the drying film in a dry environment. For film processing, ambient humidity is more important than trace water in the solution as moisture in air provides a constant supply of water to the film as the solvent evaporates. While there are many variables that control the morphology of solution-cast SPC films, these studies demonstrate that trace amounts of water play a critical role in kinetics and thermodynamics of solution-state self-assembly and the evolution of nanoscale structures during film drying.

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“…It is distinguished in its nanostructured interface that differs from that formed by lower dimension copolymers. The intriguing structure and potential technological uses of this copolymer have driven numerous studies of solutions − and membranes, − with immense efforts to correlate macroscopic transport and structure. , These studies, however, have provided macroscopic correlations where direct molecular insight into the factors that govern transport remains a missing link. Of particular significance is the interfacial dynamics that facilitate transport in these highly structured ionizable copolymers, including those that occur at the membrane’s interfaces and within internal boundaries.…”

Section: Introductionmentioning

confidence: 99%

Interfacial Response and Structural Adaptation of Structured Polyelectrolyte Thin Films

et al. 2021

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Ionizable block copolymers with distinctive block characteristics display the diversity crucial for the design of macromolecules for targeted applications. In contrast to van der Waals copolymers, their interfaces, which are critical to their function, consist of nanodomains, each of a different nature and thus unique interfacial behavior. Here, the interfacial response of a symmetric block copolymer with a sulfonated polystyrene polyelectrolyte center, tethered to polyethylene-r-propylene and terminated by poly(t-butyl styrene) is probed as polymer films are exposed to three polar solvents, water, propanol, and tetrahydrofuran (THF), using molecular dynamics simulations. Each of the solvents captures a distinctive interaction with the individual blocks. We find that at the film boundary, the interfacial response is initially dominated by that of the hydrophobic blocks to all solvents. At later times, the solvent distribution among the blocks, where water molecules associate predominantly with the sulfonated groups and propanol and THF reside at multiple different sites, determines the chemical composition and the polymer conformation at the interface. Overall, these simulations provide the first direct molecular insight into the interfacial response of ionizable copolymers.

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Self-Assembly of a Midblock-Sulfonated Pentablock Copolymer in Mixed Organic Solvents: A Combined SAXS and SANS Analysis

Cited by 13 publications

References 54 publications

Global fitting of multiple data frames from SEC–SAXS to investigate the structure of next-generation nanodiscs

Global fitting of multiple data frames from SEC–SAXS to investigate the structure of next-generation nanodiscs

Effects of Trace Water on Self-Assembly of Sulfonated Block Copolymers During Solution Processing

Interfacial Response and Structural Adaptation of Structured Polyelectrolyte Thin Films

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