An Experimental and Theoretical Determination of Oscillatory Shear-Induced Crystallization Processes in Viscoelastic Photonic Crystal Media

Finlayson, Chris E.; Rosetta, Giselle; Baumberg, Jeremy J.

doi:10.3390/ma14185298

Cited by 7 publications

(9 citation statements)

References 61 publications

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“…We therefore conclude that the thermomechanical properties of the CSP are mainly influenced and controllable by composition and amount of the elastomeric shell material, confirming experimentally the findings of Finlayson and Baumberg. [ 38 ]…”

Section: Resultsmentioning

confidence: 99%

“…Without external shear forces, mobility of the rigid spheres is highly inhibited by the gum‐like matrix and Brownian motion is suppressed. [ 8a,38,40 ] Given these prerequisites, we assume that the following mechanisms contribute to the observed shear‐thinning: Shear‐induced disentanglements of polymer strands of the grafted shell polymer decrease the flow resistance of individual particles. The generation of non‐equilibrium structures, such as strings, may also decrease flow resistance under shear force.…”

Section: Resultsmentioning

confidence: 99%

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Complex 3D‐Printed Mechanochromic Materials with Iridescent Structural Colors Based on Core–Shell Particles

Siegwardt

Gallei

2023

Adv Funct Materials

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A scalable protocol for design and subsequent 3D‐printing of polymeric core‐shell‐particles is reported. The particle synthesis by emulsion polymerization in starved‐feed mode is used for tailoring particle architecture and composition. Control of size, mechanical properties, and chemical functionalities allow to achieve the specific requirement profile for subsequent extrusion‐based additive manufacturing. The core‐shell particles consist of hard polystyrene cores and a comparably soft polyalkylacrylate‐based shell. Size and monodispersity, as well as core‐to‐shell ratio, are determined by means of dynamic light scattering and transmission electron microscopy. Thermal and rheological properties are investigated by means of dynamic scanning calorimetry and thermogravimetric analysis as well as oscillation and capillary rheometry. During 3D‐printing, the monodisperse particles self‐assemble into an ordered close packed lattice structure, leading to visible reflection colors according to Bragg's law of diffraction. Distinct and angle‐dependent reflection colors are recorded via UV‐vis spectroscopy. As the structural color depends, inter alia, on the underlying particle sizes, resulting colors are easily tunable by adjusting the applied synthesis parameters. Under mechanical deformation, the color changes due to controlled lattice deformation, which enables mechanochromic sensing with the printed objects. They are also promising candidates for decorative ornaments, smart optical coatings, or advanced security devices.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Complex 3D‐Printed Mechanochromic Materials with Iridescent Structural Colors Based on Core–Shell Particles

Siegwardt

Gallei

2023

Adv Funct Materials

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“…This initially created ordering beginning at the surfaces of the sample, which subsequently permeated inwards with further shear, and a basic representation of this process is shown in Figure 1b. The physical mechanisms of the BIOS process shear ordering are theoretically elucidated in detail elsewhere [24,31].…”

Section: Bending-induced Oscillatory Shear (Bios)mentioning

confidence: 99%

“…Fabrication of the thin films is discussed further in Section 3. Polymer opals displaying visible structural color have been characterized extensively [29][30][31][32][33], with the tunability of the structural color with sphere geometry and size being particularly well documented. However, we believe our work to be among the first reports of these systems being engineered toward the ultraviolet band of the electromagnetic spectrum, thus forming the primary focus of this paper.…”

Section: Introductionmentioning

confidence: 99%

Transparent Polymer Opal Thin Films with Intense UV Structural Color

et al. 2022

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We report on shear-ordered polymer photonic crystals demonstrating intense structural color with a photonic bandgap at 270 nm. Our work examines this UV structural color, originating from a low refractive index contrast polymer composite system as a function of the viewing angle. We report extensive characterization of the angle-dependent nature of this color in the form of ‘scattering cones’, which showed strong reflectivity in the 275–315 nm range. The viewing range of the scattering was fully quantified for a number of planes and angles, and we additionally discuss the unique spectral anisotropy observed in these structures. Such films could serve as low-cost UV reflection coatings with applications in photovoltaics due to the fact of their non-photobleaching and robust mechanical behavior in addition to their favorable optical properties.

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“…After processing, the opals have a characteristically brilliant blue-green iridescence (Figure 1c), and can then be readily peeled away from the PET tapes to produce free-standing films as required. Experimental and micrographic determinations of the physical mechanisms of BIOS shear-ordering, and the resultant structural ordering metrics, have been extensively reported on [17,28,29] and theoretically elucidated elsewhere [30], and these issues are thus not a focus of the present paper.…”

Section: Samplesmentioning

confidence: 99%

Spectroscopic Ellipsometry and Optical Modelling of Structurally Colored Opaline Thin-Films

2022

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The method of spectroscopic ellipsometry is applied to complex periodic nanomaterials, consisting of shear-ordered polymeric nanosphere composites, with intense resonant structural color. A corresponding multilayer optical quasi-model of the system, parametrizing the inherent degree of sample disorder and encompassing key properties of effective refractive-index and index-contrast, is developed to elucidate the correlation between the ∆ and Ψ ellipsometric parameters and the shear-induced opaline crystallinity. These approaches offer reliable means of in-line tracking of the sample quality of such “polymer opals” in large scale processing and applications.

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An Experimental and Theoretical Determination of Oscillatory Shear-Induced Crystallization Processes in Viscoelastic Photonic Crystal Media

Cited by 7 publications

References 61 publications

Complex 3D‐Printed Mechanochromic Materials with Iridescent Structural Colors Based on Core–Shell Particles

Complex 3D‐Printed Mechanochromic Materials with Iridescent Structural Colors Based on Core–Shell Particles

Transparent Polymer Opal Thin Films with Intense UV Structural Color

Spectroscopic Ellipsometry and Optical Modelling of Structurally Colored Opaline Thin-Films

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