Sharp scattering spectra induced brilliant and directional structural colors

Zhang, Meng; Wu, Yue; Zhang, Shufen; Wu, Suli

doi:10.1007/s40843-020-1402-x

Cited by 13 publications

(14 citation statements)

References 39 publications

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“…The formation mechanism of structural color can be attributed to the scattering effect of light by the ordered PS sphere array. 41 This experimental result was also verified by the FDTD numerical simulation, which was in good agreement with the experimental observation (Fig. S16, ESI †).…”

Section: Resultssupporting

confidence: 86%

Simultaneous enhancement of fluorescence intensity, thermometric sensitivity and SNR of upconversion thermometers via optical field localization

Huang

Zhan

et al. 2022

J. Mater. Chem. C

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Section: Resultssupporting

confidence: 86%

Simultaneous enhancement of fluorescence intensity, thermometric sensitivity and SNR of upconversion thermometers via optical field localization

Huang

Zhan

et al. 2022

J. Mater. Chem. C

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“…The M-UCNPs were deposited on the surface of the optimized bilayer IOPC with double PSBs, which was matched well with the green emission (540 nm, 540-layer) and the excitation wavelength (808 nm, 808-layer) of M-UCNPs simultaneously to enhance the luminescence. Generally, the structural colors of the PC were observed in specular angles; however, according to our previous work, sharp scattering spectra induced brilliant and directional structural colors that appeared in nonspecular angles when the PSB was located in the NIR region . As illustrated in Scheme , (I) on the front of the film (540-layer), reflection structural colors from green to blue under the specular angles were observed.…”

Section: Introductionmentioning

confidence: 72%

“…On the backside, as shown in Figure c, by fixing the angle between the incident light and the detector at 35° (α 1 ), the scattering spectrum was detected by changing the angles between the sample and the detector from 10 to 35° (α 2 ). According to the Mie theory, sharp scattering-induced bright structural colors can be observed when the ordered structure whose PSB is located in the NIR regions . The detailed angle-dependent scattering spectra are recorded in Figure d.…”

Section: Results and Discussionmentioning

confidence: 98%

“…Generally, the structural colors of the PC were observed in specular angles; however, according to our previous work, sharp scattering spectra induced brilliant and directional structural colors that appeared in nonspecular angles when the PSB was located in the NIR region. 48 As illustrated in Scheme 1, (I) on the front of the film (540-layer), reflection structural colors from green to blue under the specular angles were observed. (II) Scattering colors showed the different color ranges from red to blue on the back (808-layer) of the film at nonspecular view angles in natural light.…”

Section: Introductionmentioning

confidence: 99%

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Upconversion Nanoparticle-Integrated Bilayer Inverse Opal Photonic Crystal Film for the Triple Anticounterfeiting

Zhang

Ren

et al. 2022

ACS Appl. Mater. Interfaces

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Optical anticounterfeiting plays a vital role in information security because it can be recognized by the naked eye and is difficult to imitate. Herein, a hydrophilic modified upconversion nanoparticle (M-UCNP)-integrated bilayer inverse opal photonic crystal (IOPC) film was designed in which the luminescent M-UCNPs were deposited on the surface of the optimized bilayer structure with double photonic stop bands. The structure which can modulate light to produce structural colors can also enhance the upconversion luminescence (UCL) to improve the anticounterfeiting effect synergistically. On the one hand, the reflection colors from green to blue were observed in the specular angles on the front (540-layer) of the film. Meanwhile, the scattering colors under nonspecular angles from red to blue on the back (808-layer) appeared in the natural light. On the other hand, the bilayer structure in which the 808-layer functions as a “secondary excitation source” to improve the intensity of the excitation light on M-UCNPs and the 540-layer reflects the emission light of the M-UCNPs to enhance the UCL intensity endows the film with good night vision ability. Finally, the dual-mode structural colors and enhanced UCL of the patterned film work together to realize triple anticounterfeiting in banknotes.

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“…Initially, the special iridescent structural colors of the monolayer PC structures were employed in the optical anticounterfeiting field. − With the emphasis on information security, the requirement of the anticounterfeiting label has changed from visible for the naked eye to revealable under a special stimulus. Thus, the responsive material was introduced into the monolayer PC structure .…”

Section: Introductionmentioning

confidence: 99%

Low-Angle-Dependent Anticounterfeiting Label Decoded by Alcohol Tissue Wiping Based on a Multilayer Photonic Crystal Structure

Nan

et al. 2022

ACS Appl. Mater. Interfaces

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The application of photonic crystals (PCs) as anticounterfeiting materials has been widely investigated because of their tunable photonic stop band and corresponding changeable structural colors. In this work, we designed a composite PC structure including an information CdS PC layer at the bottom and a polymer-based layer composed of an inverse opal PC (IOPC) layer and a disordered porous layer on the top, which can be decoded by an alcohol tissue. The high refractive index of the bottom patterned CdS PC layer provides the structure with a vivid low-angle-dependent structural color in the decoded mode, which ensures the stability of the information conveyed by this label. When the incident angle changed from 5 to 45°, the structural color of the patterned CdS layer changed slightly. In the hidden mode, the low transmittance shields the structural color of the CdS layer. When the structure was wiped with the alcohol tissue, the transmittance of the upper IOPC layer could be increased quickly due to the similar refractive indexes of the used polymer and alcohol, and the pattern of the CdS layer was decoded. Thus, the designed composite PC can act as an anticounterfeiting label, in which the encrypted pattern can be decoded by alcohol tissue wiping and shows a vivid low-angle-dependent structural color. To enhance the anticounterfeiting ability of the designed structure, a double-sided label with different encryption patterns on both sides was designed. Based on the simple reversible encryption and decryption process as well as the color stability, the label shows great application potential in the daily anticounterfeiting field.

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Sharp scattering spectra induced brilliant and directional structural colors

Cited by 13 publications

References 39 publications

Simultaneous enhancement of fluorescence intensity, thermometric sensitivity and SNR of upconversion thermometers via optical field localization

Simultaneous enhancement of fluorescence intensity, thermometric sensitivity and SNR of upconversion thermometers via optical field localization

Upconversion Nanoparticle-Integrated Bilayer Inverse Opal Photonic Crystal Film for the Triple Anticounterfeiting

Low-Angle-Dependent Anticounterfeiting Label Decoded by Alcohol Tissue Wiping Based on a Multilayer Photonic Crystal Structure

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