2021
DOI: 10.1002/nano.202000301
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Thickness/morphology of functional material patterned by topographical discontinuous dewetting

Abstract: Topographical discontinuous dewetting (TDD) patterning is a nascent 2D printing technique explored for high‐throughput nanoscale patterning of functional material inks. However, variables affecting the z thickness and morphology of the deposited functional materials inside the patterned microchannels remain unexplored. We developed a theoretical model that can determine the thickness of the deposited functional material layers using the TDD patterning technique. We then confirmed the model with experimental da… Show more

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Cited by 5 publications
(21 citation statements)
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“…The ethanol/water binary solvent system can also allow control of the deposition rate of the dispersed functional materials in the patterned cavities as increasing ethanol proportion will increase the evaporation rate of the dispersion, increasing the evaporation-driven flow of the ink dispersion into the patterned cavities. 15 The dispersibility of the different nanomaterials in aqueous/ polar solvents depends on the shape of the nanomaterial particles and the polarity of their surface. Nanocellulose in the form of CNCs and CNFs can be very stable as an aqueous dispersion due to the abundance of negatively charged sulfate and carboxylic acid functional groups on the surface of the particles.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
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“…The ethanol/water binary solvent system can also allow control of the deposition rate of the dispersed functional materials in the patterned cavities as increasing ethanol proportion will increase the evaporation rate of the dispersion, increasing the evaporation-driven flow of the ink dispersion into the patterned cavities. 15 The dispersibility of the different nanomaterials in aqueous/ polar solvents depends on the shape of the nanomaterial particles and the polarity of their surface. Nanocellulose in the form of CNCs and CNFs can be very stable as an aqueous dispersion due to the abundance of negatively charged sulfate and carboxylic acid functional groups on the surface of the particles.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…10, 13 Increasing the ethanol proportion of the binary solvent system can decrease the RCA of the dispersion on the PDMS substrate during patterning, while also increasing the deposition rate of nanocellulose in the patterned cavities due to increased evaporation-driven flow. 15 We prepared nanocellulose (CNC and CNF) dispersions with various ethanol proportions and used them for TDD patterning of the nanocellulose within patterned rectangular microchannel cavities on PDMS substrates at various inking speeds. Attempts to pattern CNF dispersions through TDD resulted in non-uniform CNF deposition within the microchannels or CNF deposition in the non-patterned, non-cavity substrate areas, regardless of the patterning parameters trialed (Figure S2).…”
Section: ■ Results and Discussionmentioning
confidence: 99%
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