Tanzeela N. Raja scite author profile

In this paper we report the determination of partitioning of coalescing agents (organic co-solvents) in water-borne latex emulsions by means of a fluorescence method. An environment-sensitive fluorescent probe was copolymerized via emulsion polymerization. The presence of organic co-solvents inside the polymer particles is revealed by the photophysical properties of the probe. In particular, the position of the fluorescence emission maximum of co-polymerized can be used to measure the amount of coalescing agent present in the polymer particles. The spectral shifts are shown to be due to the softening of the matrix, rather than to solvation of the probe by the added co-solvent.

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Fluorescence Spectroscopy in Polymer Science

Raja

Brouwer

2011

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A fluorescence approach to investigate repartitioning of coalescing agents in acrylic polymer emulsions

et al. 2011

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Repartitioning of co-solvents between particles of latex emulsions was investigated by means of a fluorescence method based on the detection of the amount of co-solvent via the solvatochromic shift of the emission maximum of a fluorescent probe, copolymerized at a low concentration. Complete repartitioning of co-solvents between particles of latex materials with a low Tg (ca. 25 °C) occurred within minutes. For a hydrophilic latex with a Tg of 68 °C, equilibration was achieved within an hour. Repartitioning was faster for more hydrophobic co-solvents. For a hydrophobic latex of similar Tg, co-solvent repartitioning took place on the same time scale, but complete equilibration was not reached. Possibly, there is an additional slow component in the repartitioning, or the prolonged presence of co-solvent causes a structural change in the latex particles that affects the outcome of the experiment.

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Probing of Cosolvents in Polymer Latex Materials by Using Solvatochromic Fluorescence

Brouwer

Raja

Biemans

et al. 2008

Annals of the New York Academy of Sciences

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The process of film formation is of great importance for the application of organic coatings. In waterborne coatings, organic cosolvents are still indispensable, but regulations force the industry to reduce their amounts. Here we describe a method that uses the solvatochromic fluorescence of a probe molecule copolymerized in an emulsion polymerization process with different monomers to shed light on the partitioning of cosolvents in polymer latex materials. The formulation of the latex with organic cosolvents that are not very water soluble leads to a quantifiable redshift of the emission of the probe. The transfer of the cosolvent upon mixing of cosolvent-containing and cosolvent-free compartments can also be monitored.

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Tanzeela N. Raja

Detection of coalescing agents in water-borne latex emulsions using an environment sensitive fluorescent probe

Fluorescence Spectroscopy in Polymer Science

A fluorescence approach to investigate repartitioning of coalescing agents in acrylic polymer emulsions

Probing of Cosolvents in Polymer Latex Materials by Using Solvatochromic Fluorescence

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