AI Article Synopsis
- Agarose gels are soft solids with a high water content that are widely used in food and microbiology, yet their drying processes aren't well understood due to a lack of precise measurements.
- Researchers applied in-situ interferometry to study how different compositions of agarose gels dry in Petri dishes, utilizing a method to measure local thinning rates accurately.
- The findings reveal that adding non-gelling saccharides significantly slows down the drying rate of agarose gels, demonstrating the effectiveness of interferometry in analyzing the effects of various additives on gel drying kinetics.
Article Abstract
Agarose gels are viscoelastic soft solids that display a porous microstructure filled with water at 90% w/w or more. Despite an extensive use in food industry and microbiology, little is known about the drying kinetics of such squishy solids, which suffers from a lack of time-resolved local measurements. Moreover, only scattered empirical observations are available on the role of the gel composition on the drying kinetics. Here we study by in-situ interferometry the drying of agarose gels of various compositions cast in Petri dishes. The gel thinning is associated with the displacement of interference fringes that are analyzed using an efficient spatiotemporal filtering method, which allows us to assess local thinning rates as low as 10 nm/s with high accuracy. The gel thinning rate measured at the center of the dish appears as a robust observable to quantify the role of additives on the gel drying kinetics and compare the drying speed of agarose gels loaded with various non-gelling saccharides of increasing molecular weights. Our work shows that saccharides systematically decrease the agarose gel thinning rate up to a factor two, and exemplifies interferometry as a powerful tool to quantify the impact of additives on the drying kinetics of polymer gels.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5253732 | PMC |
| http://dx.doi.org/10.1038/srep41185 | DOI Listing |
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