Realizing nondestructive luminescence readout in photochromic ceramics deep ultraviolet excitation for optical information storage
Photochromic materials exhibiting luminescence modulation behavior are regarded as promising for high-density optical information storage media. During the luminescence readout process however, many of these materials are subject to coloration or bleaching, which inevitably destroys the information...
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| Published in | Journal of materials chemistry. C, Materials for optical and electronic devices Vol. 9; no. 39; pp. 1412 - 142 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Published |
14.10.2021
|
| Online Access | Get full text |
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| Abstract | Photochromic materials exhibiting luminescence modulation behavior are regarded as promising for high-density optical information storage media. During the luminescence readout process however, many of these materials are subject to coloration or bleaching, which inevitably destroys the information encoded in the photochromic materials and hence inhibits their use in practical applications. Herein, we report a novel nondestructive luminescence readout in Ca
2
SnO
4
:Eu photochromic ceramics by selecting deep UV as the readout wavelength. The obtained Ca
2
SnO
4
:Eu ceramics show a reversible brown-gray color change together with a large reflectivity difference of 35% upon alternating 280 nm and 585 nm illumination. Based on the photochromic behavior, a high luminescence modulation of 40.5% with excellent cycling resistance was achieved upon 240 nm excitation without loss of data during the luminescence readout process. Wavelength- and power-dependent coloration and de-coloration processes were studied to obtain a deeper insight into the photochromic behavior. Furthermore, our proof-of-concept experiment demonstrates that Ca
2
SnO
4
:Eu ceramics are promising candidates for optical information storage and anti-counterfeiting applications. It is believed that these results will provide a good standard for designing other photochromic materials with nondestructive luminescence readout behavior.
Through selecting deep UV light for excitation, a nondestructive luminescence readout together with a large luminescence modulation degree is achieved in Ca
2
SnO
4
:Eu photochromic ceramics, demonstrating great promise in optical information storage. |
|---|---|
| AbstractList | Photochromic materials exhibiting luminescence modulation behavior are regarded as promising for high-density optical information storage media. During the luminescence readout process however, many of these materials are subject to coloration or bleaching, which inevitably destroys the information encoded in the photochromic materials and hence inhibits their use in practical applications. Herein, we report a novel nondestructive luminescence readout in Ca
2
SnO
4
:Eu photochromic ceramics by selecting deep UV as the readout wavelength. The obtained Ca
2
SnO
4
:Eu ceramics show a reversible brown-gray color change together with a large reflectivity difference of 35% upon alternating 280 nm and 585 nm illumination. Based on the photochromic behavior, a high luminescence modulation of 40.5% with excellent cycling resistance was achieved upon 240 nm excitation without loss of data during the luminescence readout process. Wavelength- and power-dependent coloration and de-coloration processes were studied to obtain a deeper insight into the photochromic behavior. Furthermore, our proof-of-concept experiment demonstrates that Ca
2
SnO
4
:Eu ceramics are promising candidates for optical information storage and anti-counterfeiting applications. It is believed that these results will provide a good standard for designing other photochromic materials with nondestructive luminescence readout behavior.
Through selecting deep UV light for excitation, a nondestructive luminescence readout together with a large luminescence modulation degree is achieved in Ca
2
SnO
4
:Eu photochromic ceramics, demonstrating great promise in optical information storage. |
| Author | Martin, Lisa I. D. J Yang, Zetian Hu, Jieqi Van der Heggen, David Poelman, Dirk |
| AuthorAffiliation | Ghent University LumiLab Department of Solid State Sciences |
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| Snippet | Photochromic materials exhibiting luminescence modulation behavior are regarded as promising for high-density optical information storage media. During the... |
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| Title | Realizing nondestructive luminescence readout in photochromic ceramics deep ultraviolet excitation for optical information storage |
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