Control over the Formation of Supramolecular Material Objects Using Reaction-Diffusion

Matija Lovrak; W.E.J. Hendriksen; Michiel Kreutzer; Volkert van Steijn; Rienk Eelkema; Jan van Esch

doi:10.1039/c8sm02588f

Control over the Formation of Supramolecular Material Objects Using Reaction-Diffusion

Matija Lovrak, W.E.J. Hendriksen, Michiel Kreutzer, Volkert van Steijn, Rienk Eelkema, Jan van Esch

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Abstract

Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hydrogel objects of defined shape and size. In this study we show that controlling local reaction kinetics by means of pH, diffusion length and the concentrations of reactants allows control over the dimensions of formed supramolecular structures. By correlating a reaction diffusion model to experimental results, we show that the influence of all these control parameters can be unified using the Damköhler number, thus providing an easy-to-use relation between experimental parameters and structure dimensions. Finally, our study suggests that control over concentration gradients and chemical reactivity in combination with supramolecular chemistry is a promising platform for the design of soft matter objects of defined sizes, a concept that has received little attention up until now.

Original language	English
Pages (from-to)	4276-4283
Number of pages	8
Journal	Soft Matter
Volume	15
Issue number	21
DOIs	https://doi.org/10.1039/c8sm02588f
Publication status	Published - 2019

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title = "Control over the Formation of Supramolecular Material Objects Using Reaction-Diffusion",

abstract = "Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hydrogel objects of defined shape and size. In this study we show that controlling local reaction kinetics by means of pH, diffusion length and the concentrations of reactants allows control over the dimensions of formed supramolecular structures. By correlating a reaction diffusion model to experimental results, we show that the influence of all these control parameters can be unified using the Damk{\"o}hler number, thus providing an easy-to-use relation between experimental parameters and structure dimensions. Finally, our study suggests that control over concentration gradients and chemical reactivity in combination with supramolecular chemistry is a promising platform for the design of soft matter objects of defined sizes, a concept that has received little attention up until now.",

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AU - Lovrak, Matija

AU - Hendriksen, W.E.J.

AU - Kreutzer, Michiel

AU - van Steijn, Volkert

AU - Eelkema, Rienk

AU - van Esch, Jan

PY - 2019

Y1 - 2019

N2 - Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hydrogel objects of defined shape and size. In this study we show that controlling local reaction kinetics by means of pH, diffusion length and the concentrations of reactants allows control over the dimensions of formed supramolecular structures. By correlating a reaction diffusion model to experimental results, we show that the influence of all these control parameters can be unified using the Damköhler number, thus providing an easy-to-use relation between experimental parameters and structure dimensions. Finally, our study suggests that control over concentration gradients and chemical reactivity in combination with supramolecular chemistry is a promising platform for the design of soft matter objects of defined sizes, a concept that has received little attention up until now.

AB - Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hydrogel objects of defined shape and size. In this study we show that controlling local reaction kinetics by means of pH, diffusion length and the concentrations of reactants allows control over the dimensions of formed supramolecular structures. By correlating a reaction diffusion model to experimental results, we show that the influence of all these control parameters can be unified using the Damköhler number, thus providing an easy-to-use relation between experimental parameters and structure dimensions. Finally, our study suggests that control over concentration gradients and chemical reactivity in combination with supramolecular chemistry is a promising platform for the design of soft matter objects of defined sizes, a concept that has received little attention up until now.

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JO - Soft Matter

JF - Soft Matter

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Control over the Formation of Supramolecular Material Objects Using Reaction-Diffusion

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