2022
DOI: 10.1021/acs.chemrev.2c00035
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How Softness Matters in Soft Nanogels and Nanogel Assemblies

Abstract: Softness plays a key role in determining the macroscopic properties of colloidal systems, from synthetic nanogels to biological macromolecules, from viruses to star polymers. However, we are missing a way to quantify what the term “softness” means in nanoscience. Having quantitative parameters is fundamental to compare different systems and understand what the consequences of softness on the macroscopic properties are. Here, we propose different quantities that can be measured using scattering methods and micr… Show more

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Cited by 87 publications
(138 citation statements)
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“…This gap is most likely related to the different behavior at liquid interfaces as compared to bulk, where microgels are isotropic over a broad range of concentration and the softness of microgels can be easily quantified through rather standard experiments. 53 The role of shell architecture and the resulting interaction potential in complex interfacial self-assembly has been recently demonstrated by using core–shell particles with a linear, brush-like polymer shell rather than crosslinked microgels. 79 In the future, exploring the role of electrostatic interactions, for example in core–shell microgels with strongly charged cores, might be interesting for exploring an even broader parameter space and getting access to more complex interactions and potentially microstructures.…”
Section: Discussionmentioning
confidence: 99%
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“…This gap is most likely related to the different behavior at liquid interfaces as compared to bulk, where microgels are isotropic over a broad range of concentration and the softness of microgels can be easily quantified through rather standard experiments. 53 The role of shell architecture and the resulting interaction potential in complex interfacial self-assembly has been recently demonstrated by using core–shell particles with a linear, brush-like polymer shell rather than crosslinked microgels. 79 In the future, exploring the role of electrostatic interactions, for example in core–shell microgels with strongly charged cores, might be interesting for exploring an even broader parameter space and getting access to more complex interactions and potentially microstructures.…”
Section: Discussionmentioning
confidence: 99%
“…In any case, when it comes to interparticle interactions one needs to distinguish between mechanical stiffness, i.e. rigid as in case of inorganic nanoparticles and soft as in case of (most) microgels 53 and interactions related to steric and/or electrostatic interactions.…”
Section: Microgels and Soft Interactionsmentioning
confidence: 99%
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“…They belong to a unique class of materials because they exhibit both solid- and liquid-like behavior and have the capability to respond to external stimuli, e.g., temperature [ 3 ], pH, and ionic strength [ 4 ]. These properties can be tuned by engineering the morphologies [ 5 ], composition [ 6 ], porosity, and elasticity of the microgels [ 7 ]. Due to their tailorable stimuli sensitivity, high colloidal stability, and a broad range of possibilities for various functionalization, the past decades have seen a steadily increasing interest in microgels in applications such as biomedicine, photonic and process technology as well as in fundamental research across disciplines [ 1 ].…”
Section: Introductionmentioning
confidence: 99%