期刊
ADVANCED OPTICAL MATERIALS
卷 -, 期 -, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.202301065
关键词
electrochromic devices; information transmission; multicolored display; spectral modulation; visible-infrared
Colored films with high transparency are prepared using IR low-absorptive inorganic pigments and IR high-transparent polymer. The information transmission in the IR band is realized by controlling the thermal radiation characteristics of IR electrochromic devices. A thermochromic and IR transparent functional layer is introduced by incorporating thermochromic microcapsules, which enables separate spectral modulation ability in the visible and IR region. The device configuration holds promising potential for applications in anti-counterfeiting, optical security, and more.
Polyaniline (PANI) can achieve reversible optical modulation in visible and infrared (IR) bands under the action of voltage. However, PANI-based electrochromic devices cannot cope with the dual detection of visible and IR light to realize the transmission of information due to the linkage restriction between the spectral modulation in the visible and IR region. Here, IR low-absorptive inorganic pigments as colorants and IR high-transparent polymer as a binder are utilized to prepare colored films with high transparency. A camouflage layer against visible light detection is constructed on the surface of IR electrochromic devices, and the information transmission is realized in the IR band by controlling the thermal radiation characteristics. Furthermore, thermochromic microcapsules (TMs) that change color under external thermal stimuli are introduced to fabricate a thermochromic and IR transparent functional layer, which is attached to the surface of IR electrochromic devices and endows the devices with separate spectral modulation ability in the visible and IR region. Multicolored displays are fabricated by arraying various devices. Moreover, visual patterns are prepared on the surface of IR electrochromic devices by dispensing technology. This configuration endows the device with a promising potential for anti-counterfeiting, optical security, and related applications.
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