期刊
ADVANCED SCIENCE
卷 8, 期 23, 页码 -出版社
WILEY
DOI: 10.1002/advs.202102104
关键词
photo-induced optical memory; programmable tags; room temperature phosphorescence; RTP; smart materials
资金
- European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program [679213]
Most recently developed materials for room temperature phosphorescence lack practical relevance due to inconvenient crystalline morphology; programmable luminescent tags (PLTs) based on amorphous material systems offer easy processing and smooth sample shapes; PLTs demonstrate fast activation times and high contrast, simplifying the readout process.
Most materials recently developed for room temperature phosphorescence (RTP) lack in practical relevance due to their inconvenient crystalline morphology. Using amorphous material systems instead, programmable luminescent tags (PLTs) based on organic biluminescent emitter molecules with easy processing and smooth sample shapes are presented recently. Here, the effective quenching of the emitter's RTP by molecular oxygen (O-2) and the consumption of the excited singlet O-2 through a chemical reaction represent the central features. With customized activation schemes, high-resolution content can be written and later erased multiple times into such films, providing a versatile yet simple photonic platform for information storage. However, two important limitations remain: The immutable fluorescence of the emitters outshines the phosphorescent patterns by roughly one order of magnitude, allowing readout of the PLTs only after the excitation source is turned off. The programming of these systems is a rather slow process, where lowest reported activation times are still >8 s. Here, a material-focused approach to PLTs with fast activation times of 120 +/- 20 ms and high-contrast under continuous-wave illumination is demonstrated, leading to accelerated programming on industry relevant time scales and a simplified readout process both by eye and low cost cameras.
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