Structuring of Fluid Adlayers upon Ongoing Unimolecular Adsorption

Schaefer, Charley

doi:10.1103/physrevlett.120.036001

Cited by 3 publications

(15 citation statements)

References 50 publications

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“…However, there is limited understanding of how the early-stage structure development is affected by the physical properties of the molecules and by the processing conditions [13,14,15,16,17,18,19,20,21]. Indeed, in case that the mixture is gradually destabilised, e.g., in case of slow cooling or of an ongoing concentration increase due to solvent evaporation, mean-field theory fails [22] and is unable to predict the rather strong dependence of the coarseness of the morphology on the quench rate [18]. In the present work, we rationalise this observation in terms of universal critical dynamics [23].…”

Section: Introductionmentioning

confidence: 99%

“…Recently, kinetic Monte Carlo (kMC) simulations of a 2D lattice fluid seemed to indicate that liquid-liquid demixing upon a gradual concentration quench leads to a one-fourth power, rather than one sixth [18]. This power-law exponent was interpreted to be originated by the diffusion of material towards nuclei: Phase separation takes place at the point in time where diffusion becomes faster than the rate at which the mean-free path becomes shorter, due to an increasing concentration.…”

Section: Introductionmentioning

confidence: 99%

“…In that case, the size of the clusters is not coupled to the mean-free path, but to the stability of spherical critical nuclei as described by classical nucleation theory [29]. Although both theories seem to agree with the observations, the diffusion-limited nucleation argument seems to be specific to the case studied [18], and a simple classical nucleation theory is inaccurate near the critical point [30].…”

Section: Introductionmentioning

confidence: 99%

“…Phenomenological phase-field models are highly successful in explaining how coarsening and arresting are affected by viscoelastic effects [6], hydrodynamics [7,8], chemical reactions [9,7,10,8], turbulent flow [11], and the presence of a surfactant [12]. However, there is limited understanding of how the early-stage structure development is affected by the physical properties of the molecules and by the processing conditions [13,14,15,16,17,18,19,20,21]. Indeed, in case that the mixture is gradually destabilised, e.g., in case of slow cooling or of an ongoing concentration increase due to solvent evaporation, mean-field theory fails [22] and is unable to predict the rather strong dependence of the coarseness of the morphology on the quench rate [18].…”

Section: Introductionmentioning

confidence: 99%

“…This power-law exponent was interpreted to be originated by the diffusion of material towards nuclei: Phase separation takes place at the point in time where diffusion becomes faster than the rate at which the mean-free path becomes shorter, due to an increasing concentration. While this argument compares the time scale of diffusion-limited nucleation to the quench rate [18], the power one fourth may also be obtained by comparing the time scale of reaction-limited nucleation to the quench rate [28]. In that case, the size of the clusters is not coupled to the mean-free path, but to the stability of spherical critical nuclei as described by classical nucleation theory [29].…”

Section: Introductionmentioning

confidence: 99%

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Morphology formation in binary mixtures upon gradual destabilisation

2019

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Spontaneous liquid-liquid phase separation is commonly understood in terms of phenomenological mean-field theories. These theories correctly predict the structural features of the fluid at sufficiently long time scales and wavelengths. However, these conditions are not met in various examples in biology and materials science where the mixture is slowly destabilised, and phase separation takes place close to the critical point. Using kinetic Monte Carlo and molecular dynamics simulations of a binary surface fluid under these conditions, we show that the characteristic length scale of the emerging structure decreases, in 2D, with the 4/15 dynamic critical exponent of the quench rate rather than the mean-field 1/6th power. Hence, the dynamics of cluster formation governed by thermodynamically undriven Brownian motion is much more sensitive on the rate of destabilisation than expected from mean-field theory. We discuss the expected implications of this finding to 3D systems with ordering liquid crystals, as well as phase-separating passive or active particles. arXiv:1907.03148v2 [cond-mat.soft]

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Morphology formation in binary mixtures upon gradual destabilisation

2019

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Sticker-and-Linker Model for Amyloid Beta Condensation and Fibrillation

Connor

Quinn

Schaefer

2022

Preprint

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A major pathogenic hallmark of Alzheimer's disease is the presence of neurotoxic plaques composed of amyloid beta (Aβ) peptides in patients' brains. The pathway of plaque formation remains elusive, though some clues appear to lie in the dominant presence of Aβ1-42 in these plaques despite Aβ1-40 making up approximately 90% of the Aβ pool. We hypothesise that this asymmetry is driven by the hydrophobicity of the two extra amino acids that are incorporated in Aβ1-42. To investigate this hypothesis at the level of single molecules, we have developed a molecular 'sticker-and-linker lattice model' of unfolded Aβ. The model protein has a single sticker that may reversibly dimerise and elongate into semi-flexible linear oligomers. The growth is hampered by excluded-volume interactions that are encoded by the hydrophilic linkers but are rendered cooperative by the attractive interactions of hydrophobic linkers. For sufficiently strong hydrophobicity, the chains undergo liquid-liquid phase-separation (LLPS) into condensates that facilitate the nucleation of fibres. We find that a small fraction of Aβ1-40 in a mixture of Aβ1-40 and Aβ1-42 shift the critical concentration for LLPS to lower values. This study provides theoretical support for the hypothesis that LLPS condensates act as a precursor for aggregation and provides an explanation for the Aβ1-42-enrichment of aggregates in terms of hydrophobic interactions.

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Sticker-and-spacer model for amyloid beta condensation and fibrillation

Connor

Quinn

Schaefer

2022

Front. Mol. Neurosci.

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A major pathogenic hallmark of Alzheimer's disease is the presence of neurotoxic plaques composed of amyloid beta (Aβ) peptides in patients' brains. The pathway of plaque formation remains elusive, though some clues appear to lie in the dominant presence of Aβ1 − 42 in these plaques despite Aβ1−40 making up approximately 90% of the Aβ pool. We hypothesize that this asymmetry is driven by the hydrophobicity of the two extra amino acids that are incorporated in Aβ1−42. To investigate this hypothesis at the level of single molecules, we have developed a molecular “sticker-and-spacer lattice model” of unfolded Aβ. The model protein has a single sticker that may reversibly dimerise and elongate into semi-flexible linear chains. The growth is hampered by excluded-volume interactions that are encoded by the hydrophilic spacers but are rendered cooperative by the attractive interactions of hydrophobic spacers. For sufficiently strong hydrophobicity, the chains undergo liquid-liquid phase-separation (LLPS) into condensates that facilitate the nucleation of fibers. We find that a small fraction of Aβ1−40 in a mixture of Aβ1−40 and Aβ1−42 shifts the critical concentration for LLPS to lower values. This study provides theoretical support for the hypothesis that LLPS condensates act as a precursor for aggregation and provides an explanation for the Aβ1−42-enrichment of aggregates in terms of hydrophobic interactions.

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Structuring of Fluid Adlayers upon Ongoing Unimolecular Adsorption

Cited by 3 publications

References 50 publications

Morphology formation in binary mixtures upon gradual destabilisation

Morphology formation in binary mixtures upon gradual destabilisation

Sticker-and-Linker Model for Amyloid Beta Condensation and Fibrillation

Sticker-and-spacer model for amyloid beta condensation and fibrillation

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