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Pieri F, Fiori G. Paper-based WS2 photodetectors fabricated by all-dry techniques. Opto-Electron Adv 6, 230077 (2023). doi: 10.29026/oea.2023.230077
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Paper-based WS2 photodetectors fabricated by all-dry techniques
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Abstract
A recent application of a simple, all-dry, abrasive transfer of 2D materials on paper demonstrates the potential of two-dimensional tungsten disulfide (WS2) as the sensitive material of a flexible photoconductive detector. The devices show really good responsivity over a bandwidth spanning from near infrared to ultraviolet and could open new avenues towards disposable optoelectronics systems. -
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References
[1] Tobjörk D, Österbacka R. Paper electronics. Adv Mater 23, 1935–1961 (2011). doi: 10.1002/adma.201004692 [2] Ha D, Fang ZQ, Zhitenev NB. Paper in electronic and optoelectronic devices. Adv Electron Mater 4, 1700593 (2018). doi: 10.1002/aelm.201700593 [3] Conti S, Pimpolari L, Calabrese G, Worsley R, Majee S et al. Low-voltage 2D materials-based printed field-effect transistors for integrated digital and analog electronics on paper. Nat Commun 11, 3566 (2020). doi: 10.1038/s41467-020-17297-z [4] Brunetti I, Pimpolari L, Conti S, Worsley R, Majee S et al. Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper. npj 2D Mater Appl 5, 85 (2021). doi: 10.1038/s41699-021-00266-5 [5] McManus D, Dal Santo A, Selvasundaram PB, Krupke R, LiBassi A et al. Photocurrent study of all-printed photodetectors on paper made of different transition metal dichalcogenide nanosheets. Flex Print Electron 3, 034005 (2018). doi: 10.1088/2058-8585/aaddb5 [6] Pereira NM, Rezende NP, Cunha THR, Barboza APM, Silva GG et al. Aerosol-printed MoS2 ink as a high sensitivity humidity sensor. ACS Omega 7, 9388–9396 (2022). doi: 10.1021/acsomega.1c06525 [7] Lopez-Sanchez O, Lembke D, Kayci M, Radenovic A, Kis A. Ultrasensitive photodetectors based on monolayer MoS2. Nat Nanotechnol 8, 497–501 (2013). doi: 10.1038/nnano.2013.100 [8] Castellanos-Gomez A, Buscema M, Molenaar R, Singh V, Janssen L et al. Deterministic transfer of two-dimensional materials by all-dry viscoelastic stamping. 2D Mater 1, 011002 (2014). doi: 10.1088/2053-1583/1/1/011002 [9] Yoon T, Shin WC, Kim TY, Mun JH, Kim TS et al. Direct measurement of adhesion energy of monolayer graphene As-grown on copper and its application to renewable transfer process. Nano Lett 12, 1448–1452 (2012). doi: 10.1021/nl204123h [10] Zhang WL, Çakıroğlu O, Al-Enizi A, Nafady A, Gan XT et al. Solvent-free fabrication of broadband WS2 photodetectors on paper. Opto-Electronic Adv 6, 220101 (2023). doi: 10.29026/oea.2023.220101 [11] Mazaheri A, Lee M, van der Zant HSJ, Frisenda R, Castellanos-Gomez A. MoS2-on-paper optoelectronics: drawing photodetectors with van der Waals semiconductors beyond graphite. Nanoscale 12, 19068–19074 (2020). doi: 10.1039/D0NR02268C [12] Lee M, Mazaheri A, van der Zant HSJ, Frisenda R, Castellanos-Gomez A. Drawing WS2 thermal sensors on paper substrates. Nanoscale 12, 22091–22096 (2020). doi: 10.1039/D0NR06036D [13] Bolotsky A, Butler D, Dong CY, Gerace K, Glavin NR et al. Two-dimensional materials in biosensing and healthcare: from in vitro diagnostics to optogenetics and beyond. ACS Nano 13, 9781–9810 (2019). doi: 10.1021/acsnano.9b03632 -
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Pieri F, Fiori G. Paper-based WS2 photodetectors fabricated by all-dry techniques. Opto-Electron Adv 6, 230077 (2023). doi: 10.29026/oea.2023.230077
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Figure 1.
(a) Sketch of the fabrication process. (b) Schematic of the set-up for the testing of the proof-of-concept spectrometer.10
