Dynamics of Drying Process of Polymer Solution Droplets: Analysis of Polymer Transport and Control of Film Profiles

Kajiya, Tadashi; Doi, Masao

doi:10.1678/rheology.39.17

Cited by 17 publications

(21 citation statements)

References 50 publications

(43 reference statements)

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“…In fact, the species inside the thin film (dye and polymer) are transported by two mechanismsconvection and diffusion (eq 3) while convection typically occurs at a much higher rate for both species, as can be shown through the associated Pećlet numbers. 9 As a result, both polymer and dye are expected to be transported together by evaporation-induced convection while diffusion is negligible. This will be confirmed by the calculation of the Pećlet numbers for the dye and polymer throughout the evaporation process.…”

Section: ■ Experimental Methodsmentioning

confidence: 99%

Concentration Field Evolution during the Drying of a Thin Polymer Solution Film near the Contact Line

Babaie

Stoeber

2015

Langmuir

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An experimental study is performed for polymer concentration field measurements during the drying of an aqueous poly(vinyl alcohol) solution inside a shallow cavity near a vertical side wall. The measurements are based on optical techniques such as 3D confocal microscopy for laser-induced fluorescence analysis. The results reveal a significant concentration heterogeneity across the film near the meniscus during the drying process. The concentration at the solution-air interface remains higher compared to the bulk, and it increases toward the pinned contact line and also over time. A skin layer starts forming as the surface concentration reaches the glass-transition concentration, after which the evaporation rate starts decreasing. Regardless of the cavity depth and the initial polymer concentration, the drying film undergoes a similar concentration evolution during the evaporation process, although minor differences can be recognized. For instance, a low local capillary number at the surface is associated with a wavy surface concentration profile while at higher capillary numbers disturbances are damped and a much more uniform concentration profile is observed.

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Section: ■ Experimental Methodsmentioning

confidence: 99%

Concentration Field Evolution during the Drying of a Thin Polymer Solution Film near the Contact Line

Babaie

Stoeber

2015

Langmuir

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“…3 reveals a weak and broad endothermic peak appearing at B260 1C, the intensity of which increased with the increasing fraction of PD and was associated with its evaporation. Even though several reports on the drying of polymer solutions 16,[27][28][29][30][31] and colloidal suspensions 17,[32][33][34] emphasize the importance of the flow direction and the velocity on the shape of the dried deposits, the topology of the deposit is not necessarily determined by the flows present in the early stage of drying. In general, there are two flows competing when a binary-solvent ink is drying: the capillary flow towards the periphery of the drying feature and the recirculating Marangoni flow.…”

Section: Tas-gp15mentioning

confidence: 99%

Inkjet printing of uniform dielectric oxide structures from sol–gel inks by adjusting the solvent composition

et al. 2016

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“…The detailed theoretical analysis and an experiment of monitoring the evaporation process of a drop of NaCl injection in real time by use of this method are shown. Evaporation of droplets on a flat substrate, a commonly observed phenomenon in our everyday life, has been a topic of continued interest for several decades because of its important role in the nature and in various engineering fields [15–17]. For the analysis of droplet evaporation, it would be beneficial in models for complex devices or systems that incorporate various sub-processes for which simplified descriptions are needed [18].…”

Section: Introductionmentioning

confidence: 99%

Simultaneous amplitude-contrast and phase-contrast surface plasmon resonance imaging by use of digital holography

Li¹,

Zhong²

2012

Biomed. Opt. Express

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The surface plasmon resonance imaging technique provides a tool that allows high-throughput analysis and real-time kinetic measurement. A simultaneous amplitude-contrast and phase-contrast surface plasmon resonance imaging method is presented. The amplitude-contrast and phase-contrast images are simultaneously obtained by use of digital holography. The detection sensitivity of amplitude-contrast imaging and phase-contrast imaging can compensate for each other. Thus, the detectable sample components may cover a wider range of refractive index values for the simultaneous amplitude-contrast and phase-contrast imaging method than for the phase-contrast imaging method or amplitude-contrast imaging method. A detailed description of the theory and an experiment of monitoring the evaporation process of a drop of NaCl injection in real time are presented. In addition, the amplitude-contrast image has less coherent noise by digital holography.

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Dynamics of Drying Process of Polymer Solution Droplets: Analysis of Polymer Transport and Control of Film Profiles

Cited by 17 publications

References 50 publications

Concentration Field Evolution during the Drying of a Thin Polymer Solution Film near the Contact Line

Concentration Field Evolution during the Drying of a Thin Polymer Solution Film near the Contact Line

Inkjet printing of uniform dielectric oxide structures from sol–gel inks by adjusting the solvent composition

Simultaneous amplitude-contrast and phase-contrast surface plasmon resonance imaging by use of digital holography

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