4.8 Article

A Paper-Based Wearable Photodetector for Simultaneous UV Intensity and Dosage Measurement

期刊

ADVANCED FUNCTIONAL MATERIALS
卷 31, 期 20, 页码 -

出版社

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202100026

关键词

dosage; photodetectors; simultaneous photodetector; UV intensity; wearable photodetector

资金

  1. National Key R&D Program of China [2018YFA0703700, 2017YFA0204600]
  2. National Natural Science Foundation of China [51872050, 1201101405]
  3. Ministry of Education Joint Fund for Equipment Pre-Research [6141A02033241]
  4. Science and Technology Commission of Shanghai Municipality [19520744300, 18520710800, 18520744600]

向作者/读者索取更多资源

A paper-based wearable photodetector is reported, which can simultaneously measure transient light intensity and accumulated light dosage. The photodetector fully utilizes the natural hygroscopicity and softness of paper, showing decent flexibility. This work introduces a new type of wearable photodetector by structure design and material selection, shedding light on more novel works for convenient and practical photodetection.
Photodetectors, which convert the light signal into other forms of signal, have been under the spotlight of research for many years because they are widely applied in monitoring, communication, and imaging. Most of the currently available photodetectors can output electrical signals to indicate the transient light intensity, while some display color change to reveal the absorbed light dosage. However, there is no device that can tell the transient light intensity and accumulated light dosage at the same time. Here, a paper-based wearable photodetector that can simultaneously measure transient light intensity and accumulated light dosage is reported. The phosphomolybdic acid/citric acid system, whose color change can be observed by the naked eye, is designed as the photochromic material to combine with photodetective materials (using 2D Sr2Nb3O10 and ZnO nanoparticle as examples) on paper. Such paper-based photodetector fully utilizes natural hygroscopicity and softness of paper, showing decent flexibility. Its optoelectronic signal remains stable even after 1000 cycles of bending. To the best of one's knowledge, this is the first photodetector that can tell light intensity and dosage simultaneously. This work introduces a new type of wearable photodetector by structure design and material selection, shedding light on more novel works for convenient and practical photodetection.

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