期刊
NANOSCALE
卷 12, 期 22, 页码 11986-11996出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0nr01394c
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资金
- UGC
- Science and Engineering Research Board (SERB) [ECR/2017/003264, ECR/2017/002037]
- J C Bose Fellowship (DST)
- SERB [CRG/2019/003907]
- Technical Research Centre (TRC), IACS, Kolkata [AI/1/62/IACS/2015]
The emergence of organic-inorganic hybrid perovskites (OHPs) has revolutionised the potential performance of optoelectronic devices; most perovskites are opaque and hence incompatible with transparent optoelectronics and sensitive to environmental degradation. Here, we have reported a single-step fabrication of ultra-long MAPbI(3)perovskite microwire arrays over a large area using stencil lithography based on sequential vacuum sublimation. The environmental stability of MAPbI(3)is empowered with a newly designed and synthesized transparent supramolecular self-assembly based on a mixture of two tripodall-Phe-C11H23/C(7)F(15)molecules, which showed a contact angle of 105 degrees and served as ultra-hydrophobic passivation layers for more than 45 days in an ambient atmosphere. The MAPbI(3)microwire arrays passivated with the supramolecular self-assembly demonstrated for the first time both excellent transparency of similar to 89% at 550 nm and a remarkable photoresponse with a photo-switching ratio of similar to 10(4), responsivity of 789 A W-1, detectivity of 10(14)Jones, linear dynamic range of similar to 122 dB, and rise time of 432 mu s. Furthermore, the photodetector fabricated on a flexible PET substrate demonstrated robust mechanical flexibility even beyond 1200 bending cycles. Therefore, the scalable stencil lithography and supramolecular passivation approaches have the potential to deliver next-generation transparent, flexible, and stable optoelectronic devices.
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