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Literature DB >> 24683109

The compressibility of pH-sensitive microgels at the oil-water interface: higher charge leads to less repulsion.

Karen Geisel¹, Lucio Isa, Walter Richtering.

Abstract

pH-responsive microgels are unique stabilizers for stimuli-sensitive emulsions that can be broken on demand by changing the pH value. However, recent experiments have indicated that electrostatic interactions play a different role to that in conventional Pickering emulsions. The influence of charges on the interactions between microgels at the oil-water interface is now described. Compression isotherms of microgels with different charge density and architecture were determined in a Langmuir trough, and counter-intuitive results were obtained: Charged microgels can be compressed more easily than uncharged microgels. The compressibility of microgels is thus not determined by direct Coulomb repulsion. Instead, the different swelling of the microgels in the charged and the uncharged states is proposed to be the key parameter.

Entities: Chemical

Keywords: Pickering emulsions; compression isotherms; electrostatic interactions; interfaces; pH-sensitive microgels

Year: 2014 PMID： 24683109 DOI： 10.1002/anie.201402254

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

1. Exploring the colloid-to-polymer transition for ultra-low crosslinked microgels from three to two dimensions.

Authors: A Scotti; S Bochenek; M Brugnoni; M A Fernandez-Rodriguez; M F Schulte; J E Houston; A P H Gelissen; I I Potemkin; L Isa; W Richtering
Journal: Nat Commun Date: 2019-03-29 Impact factor: 14.919

2. Preparation of pH Responsive Polystyrene and Polyvinyl Pyridine Nanospheres Stabilized by Mickering Microgel Emulsions.

Authors: Ayman M Atta; Abdelrahman O Ezzat; Hamad A Al-Lohedan; Ahmed M Tawfeek; Abdulaziz A Alobaidi
Journal: Nanomaterials (Basel) Date: 2019-12-03 Impact factor: 5.076

The compressibility of pH-sensitive microgels at the oil-water interface: higher charge leads to less repulsion.

1. Exploring the colloid-to-polymer transition for ultra-low crosslinked microgels from three to two dimensions.

2. Preparation of pH Responsive Polystyrene and Polyvinyl Pyridine Nanospheres Stabilized by Mickering Microgel Emulsions.

3. Surface Patterning with SiO₂@PNiPAm Core-Shell Particles.

4. Engineering hybrid microgels as particulate emulsifiers for reversible Pickering emulsions.

Review 5. Soft Colloidal Particles at Fluid Interfaces.

The compressibility of pH-sensitive microgels at the oil-water interface: higher charge leads to less repulsion.

1. Exploring the colloid-to-polymer transition for ultra-low crosslinked microgels from three to two dimensions.

2. Preparation of pH Responsive Polystyrene and Polyvinyl Pyridine Nanospheres Stabilized by Mickering Microgel Emulsions.

3. Surface Patterning with SiO2@PNiPAm Core-Shell Particles.

4. Engineering hybrid microgels as particulate emulsifiers for reversible Pickering emulsions.

Review 5. Soft Colloidal Particles at Fluid Interfaces.

3. Surface Patterning with SiO₂@PNiPAm Core-Shell Particles.