The Double-Faced Electrostatic Behavior of PNIPAm Microgels

Sennato, Simona; Chauveau, Edouard; Casciardi, Stefano; Bordi, F.; Truzzolillo, Domenico

doi:10.3390/polym13071153

Cited by 22 publications

(37 citation statements)

References 89 publications

(74 reference statements)

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“…Such a role, not often recognized in the literature, appears to be important to properly capture the internal modifications of the microgels upon collapse, as also confirmed by electrophoretic mobility measurements across the VPT for a subset of the samples investigated in this work ( SI Appendix , Fig. S2 ) ( 44 , 47 ).…”

Section: Resultssupporting

confidence: 61%

“…In a previous work by some of us ( 44 ), the minimum was tentatively associated to the presence of initiator charges, manifesting their effect under collapsed conditions even for simple pNIPAM microgels. This conjecture was supported by electrophoretic mobility measurements also displaying a rapid increase of the signal for temperatures above the VPT, thus providing evidence that, in the high temperature regime, pNIPAM microgels have to be considered as charged micro-objects ( 29 , 47 , 48 ). However, a legitimate doubt concerned whether the minimum in

would be solely due to charges or could be attributed to other ingredients, such as the inhomogeneous core–corona topology of pNIPAM microgels synthesized by precipitation polymerization methods.…”

Section: Discussionmentioning

confidence: 68%

See 1 more Smart Citation

Two-step deswelling in the Volume Phase Transition of thermoresponsive microgels

Monte

Truzzolillo

Camerin

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Thermoresponsive microgels are one of the most investigated types of soft colloids, thanks to their ability to undergo a Volume Phase Transition (VPT) close to ambient temperature. However, this fundamental phenomenon still lacks a detailed microscopic understanding, particularly regarding the presence and the role of charges in the deswelling process. This is particularly important for the widely used poly(N-isopropylacrylamide)–based microgels, where the constituent monomers are neutral but charged groups arise due to the initiator molecules used in the synthesis. Here, we address this point combining experiments with state-of-the-art simulations to show that the microgel collapse does not happen in a homogeneous fashion, but through a two-step mechanism, entirely attributable to electrostatic effects. The signature of this phenomenon is the emergence of a minimum in the ratio between gyration and hydrodynamic radii at the VPT. Thanks to simulations of microgels with different cross-linker concentrations, charge contents, and charge distributions, we provide evidence that peripheral charges arising from the synthesis are responsible for this behavior and we further build a universal master curve able to predict the two-step deswelling. Our results have direct relevance on fundamental soft condensed matter science and on applications where microgels are involved, ranging from materials to biomedical technologies.

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Section: Resultssupporting

confidence: 61%

Section: Discussionmentioning

confidence: 68%

Two-step deswelling in the Volume Phase Transition of thermoresponsive microgels

Monte

Truzzolillo

Camerin

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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“…Likewise, Kleinen and Richtering also provide electrophoresis measurements to investigate the charge inversion of polyelectrolyte-microgel complexes formed by cationic poly(diallyldimethylammonium chloride), PDADMAC, and anionic PNIPAM microgels [ 54 , 55 ]. More recently, Sennato et al have shown that when PNIPAM microgels are collapsed, they strongly interact with oppositely charged polyelectrolytes and a large charge inversion is observed [ 56 ]. In this sense, coarse-grained Monte Carlo simulations have recently been applied to predict the charge inversion previously detected through µ e for nanogel-polyelectrolyte complexes [ 57 ].…”

Section: Resultsmentioning

confidence: 99%

Complexation of DNA with Thermoresponsive Charged Microgels: Role of Swelling State and Electrostatics

Maldonado-Valderrama

Yang

Jimenez-Guerra

et al. 2022

Gels

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Micro- and nanogels are being increasingly used to encapsulate bioactive compounds. Their soft structure allows large loading capacity while their stimuli responsiveness makes them extremely versatile. In this work, the complexation of DNA with thermoresponsive microgels is presented. To this end, PEGylated charged microgels based on poly-N-isopropylacrylamide have been synthesized, allowing one to explore the electrostatics of the complexation. Cationic microgels complexate spontaneously by electrostatic attraction to oppositely charged DNA as demonstrated by electrophoretic mobility of the complexes. Then, Langmuir monolayers reveal an increased interaction of DNA with swollen microgels (20 °C). Anionic microgels require the presence of multivalent cations (Ca2+) to promote the complexation, overcoming the electrostatic repulsion with negatively charged DNA. Then again, Langmuir monolayers evidence their complexation at the surface. However, the presence of Ca2+ seems to induce profound changes in the interaction and surface conformation of anionic microgels. These alterations are further explored by measuring adsorbed films with the pendant drop technique. Conformational changes induced by Ca2+ on the structure of the microgel can ultimately affect the complexation with DNA and should be considered in the design. The combination of microstructural and surface properties for microgels offers a new perspective into complexation of DNA with soft particles with biomedical applications.

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“…2,[11][12][13] Among polymeric microgels, those made of poly(N-isopropylacrylamide) (PNIPAm) are particularly interesting, since they undergo a Volume Phase Transition (VPT) at ambient temperature: below a characteristic temperature, T c ≈ 32 • C, these colloidal networks exist in a swollen, fully hydrated state, while above T c they collapse due to their increased hydrophobicity. PNIPAm microgels can be synthesized using standard emulsion polymerization in aqueous media 14 and their size, shape and structure have been investigated using various methods including x-ray, light and neutron scattering, [15][16][17][18] and electron or atomic force microscopy. 18 The combination of many different experimental techniques to investigate the VPT of PNIPAm microgels made it possible to grasp a lot of information on this phenomenon, which is one of the most studied in soft condensed matter nowadays.…”

Section: Introductionmentioning

confidence: 99%

The role of charge content in the two-step deswelling of Poly(N-isopropylacrylamide)-based microgels

Elancheliyan,

Del Monte,

Chauveau

et al. 2022

Preprint

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Poly(N-isopropylacrylamide)-based microgels are soft colloids undergoing a Volume Phase Transition (VPT) close to ambient temperature. Although widely employed for fundamental research and application purposes, the modifications of the microgels internal structure occurring at the VPT are not yet completely understood, especially concerning the role of electrostatics. Here we study in detail, both experimentally and numerically, the effect of the addition of acrylic acid (AAc) co-monomer on the microgel deswelling process. By combining viscosimetry, light scattering and electrophoresis, we show that the progressive addition of AAc increases the microgel mass and suppresses

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The Double-Faced Electrostatic Behavior of PNIPAm Microgels

Cited by 22 publications

References 89 publications

Two-step deswelling in the Volume Phase Transition of thermoresponsive microgels

Two-step deswelling in the Volume Phase Transition of thermoresponsive microgels

Complexation of DNA with Thermoresponsive Charged Microgels: Role of Swelling State and Electrostatics

The role of charge content in the two-step deswelling of Poly(N-isopropylacrylamide)-based microgels

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