Template‐Free Scalable Fabrication of Linearly Periodic Microstructures by Controlling Ribbing Defects Phenomenon in Forward Roll Coating for Multifunctional Applications

Islam, Didarul; Perera, Himendra; Black, Benjamin; Phillips, Matthew; Chen, Muh‐Jang; Hodges, Greyson; Jackman, Allyce; Liu, Yuxuan; Kim, Chang‐Jin; Zikry, M. A.; Khan, Saad A.; Zhu, Yong; Pankow, Mark; Ryu, Jongeun

doi:10.1002/admi.202201237

Cited by 8 publications

(30 citation statements)

References 95 publications

(136 reference statements)

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“…Finally, the samples' water contact angles were measured by the low-bond axisymmetric drop shape analysis plugin provided by the ImageJ software. The surface energy calculation was based on Fowke's model and the Owens-Wendt model (SI.9) 20 .…”

Section: Liquid Contact Angle Measurementmentioning

confidence: 99%

“…1(b) and Video (for presenting convenience, 15 vol% Al2O3/PDMS (relative low viscosity) and low roller speed are utilized). Our previous simulation research demonstrated that surface energy γ, viscosity η, roller radius R, roller gap d, and roller speed U had strong correlations with the pressure gradient in the flow direction, which directly led to the formation of the spike "defects" 20 . To demonstrate the effects of η, U, γ, and R/d on the final spikes' peak periodicity (pspike), parametric experiments are conducted with U ranging from 20 rpm to 100 rpm, and R/d from 100 to 320.…”

Section: Materials' Fabrication and Optical Characterizationmentioning

confidence: 99%

“…The common ribbon and spike defects in traditional roll-to-roll manufacturing inspired researchers to develop a novel scalable way to fabricate periodical microstructures [14][15][16][17] . Specifically, the positive pressure gradient generated in the downstream meniscus sows the seeds of the spike "defects" on the surface [18][19][20] . These defects can be robustly kept when the material's rheological properties are modified by adding nanoparticles.…”

mentioning

confidence: 99%

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A scalable microstructure photonic coating fabricated by roll-to-roll “defects” for daytime sub-ambient passive radiation cooling

Liu

Sui

Harbinson

et al. 2022

Preprint

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The deep space’s coldness (~4K) provides a ubiquitous and inexhaustible thermodynamic resource to suppress the cooling energy consumption. However, it is nontrivial to achieve sub-ambient radiative cooling during daytime under strong direct sunlight, which requires rational and delicate photonic design for simultaneous high solar reflectivity (> 94%) and thermal emissivity. A great challenge arises when trying to meet such strict photonic microstructure requirements while maintaining manufacturing scalability. Herein, we demonstrate a rapid, low-cost, template-free roll-to-roll method to fabricate spike microstructured photonic nanocomposite coatings with Al2O3 and TiO2 nanoparticles embedded that possess 97.5% of solar reflectivity and 98.6% of thermal emissivity. A novel Roll-to-roll Defects Coefficient is proposed to predict the microstructure density. When facing direct sunlight at summer noon (806 W/m2 solar intensity), the meta-coatings show a radiative cooling power of 99.2 W/m2. Combined with the coatings’ superhydrophobic and contamination resistance merits, the potential 15.1% cooling energy saving capability is numerically demonstrated across the United States.

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Section: Liquid Contact Angle Measurementmentioning

confidence: 99%

Section: Materials' Fabrication and Optical Characterizationmentioning

confidence: 99%

mentioning

confidence: 99%

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A scalable microstructure photonic coating fabricated by roll-to-roll “defects” for daytime sub-ambient passive radiation cooling

Liu

Sui

Harbinson

et al. 2022

Preprint

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“…However, the performance and cost were limited by the metal substrate . The common ribbon and spike defects in traditional roll-to-roll manufacturing inspired researchers to develop a novel scalable way to fabricate periodical microstructures. − Specifically, the positive pressure gradient generated in the downstream meniscus sows the seeds of the spike “defects” on the surface. − These defects can be robustly kept when the material’s rheological properties are modified by adding nanoparticles. In this situation, the defects’ peak pitch length is correlated to material properties (i.e., surface energy and viscosity) and fabrication parameters (i.e., roller radius, roller gap, and roller speed). − The optimized spike microstructures for high cooling performance can be obtained by manipulating the embedded nanoparticles and fabrication parameters.…”

mentioning

confidence: 99%

“…Our previous simulation research demonstrated that surface energy γ, viscosity η (or complex viscosity η*), roller radius R, roller gap d, and roller speed U were strongly correlated to the pressure gradient in the flow direction, which directly led to the formation of the spike "defects". 23 . The parametric roll-to-roll experiment results demonstrate that the higher η (higher particle content), U, and R/d would lead to a smaller p spike as shown in Figure 3g and Table S5.…”

mentioning

confidence: 99%

A Scalable Microstructure Photonic Coating Fabricated by Roll-to-Roll “Defects” for Daytime Subambient Passive Radiative Cooling

et al. 2023

Self Cite

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The deep space's coldness (∼4 K) provides a ubiquitous and inexhaustible thermodynamic resource to suppress the cooling energy consumption. However, it is nontrivial to achieve subambient radiative cooling during daytime under strong direct sunlight, which requires rational and delicate photonic design for simultaneous high solar reflectivity (>94%) and thermal emissivity. A great challenge arises when trying to meet such strict photonic microstructure requirements while maintaining manufacturing scalability. Herein, we demonstrate a rapid, low-cost, template-free roll-to-roll method to fabricate spike microstructured photonic nanocomposite coatings with Al 2 O 3 and TiO 2 nanoparticles embedded that possess 96.0% of solar reflectivity and 97.0% of thermal emissivity. When facing direct sunlight in the spring of Chicago (average 699 W/m 2 solar intensity), the coatings show a radiative cooling power of 39.1 W/m 2 . Combined with the coatings' superhydrophobic and contamination resistance merits, the potential 14.4% cooling energy-saving capability is numerically demonstrated across the United States.

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Predicting and Controlling Ribbing Instabilities of Carbon Nanotube–PDMS Thin‐Film Systems for Multifunctional Applications

et al. 2023

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The manufacturing of thin films with structured surfaces by large‐scale rolling has distinct advantages over other techniques, such as lithography, due to scalability. However, it is not well understood or quantified how processing conditions can affect the microstructure at different physical scales. Hence, the objective of this investigation is to develop a validated computational model of the symmetric forward‐roll coating process to understand, predict, and control the morphology of carbon nanotube (CNT)–polydimethylsiloxane (PDMS) pastes. The effects of the thin‐film rheological properties and the roller gap on the ribbing behavior are investigated and a ribbing instability prediction model is formulated from experimental measurements and computational predictions. The CNT–PDMS thin‐film system is modeled by a nonlinear implicit dynamic finite‐element method that accounts for ribbing instabilities, large displacements, rolling contact, and material viscoelasticity. Dynamic mechanical analysis is used to obtain the viscoelastic properties of the CNT–PDMS paste for various CNT weight distributions. Furthermore, a Morris sensitivity analysis is conducted to obtain insights on the dominant predicted characteristics pertaining to the ribbing microstructure. Based on the sensitivity analysis, a critical ribbing aspect ratio is identified for the CNT–PDMS system corresponding to a critical roller gap.

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Template‐Free Scalable Fabrication of Linearly Periodic Microstructures by Controlling Ribbing Defects Phenomenon in Forward Roll Coating for Multifunctional Applications

Cited by 8 publications

References 95 publications

A scalable microstructure photonic coating fabricated by roll-to-roll “defects” for daytime sub-ambient passive radiation cooling

A scalable microstructure photonic coating fabricated by roll-to-roll “defects” for daytime sub-ambient passive radiation cooling

A Scalable Microstructure Photonic Coating Fabricated by Roll-to-Roll “Defects” for Daytime Subambient Passive Radiative Cooling

Predicting and Controlling Ribbing Instabilities of Carbon Nanotube–PDMS Thin‐Film Systems for Multifunctional Applications

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