On-wire Design of Axial Periodic Halide Perovskite Superlattices for High-performance Photodetection

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

3 Scopus Citations
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Author(s)

  • Qihang Lv
  • Xia Shen
  • Xuyang Li
  • Pengfei Guo
  • Liantuan Xiao
  • Xidong Duan
  • Xiangfeng Duan

Detail(s)

Original languageEnglish
Pages (from-to)18022-18035
Journal / PublicationACS Nano
Volume18
Issue number27
Online published27 Jun 2024
Publication statusPublished - 9 Jul 2024

Abstract

Precise synthesis of all-inorganic lead halide perovskite nanowire heterostructures and superlattices with designable modulation of chemical compositions is essential for tailoring their optoelectronic properties. Nevertheless, controllable synthesis of perovskite nanostructure heterostructures remains challenging and underexplored to date. Here, we report a rational strategy for wafer-scale synthesis of one-dimensional periodic CsPbCl3/CsPbI3 superlattices. We show that the highly parallel array of halide perovskite nanowires can be prepared roughly as horizontally guided growth on an M-plane sapphire. A periodic patterning of the sapphire substrate enables position-selective ion exchange to obtain highly periodic CsPbCl3/CsPbI3 nanowire superlattices. This patterning is further confirmed by micro-photoluminescence investigations, which show that two separate band-edge emission peaks appear at the interface of a CsPbCl3/CsPbI3 heterojunction. Additionally, compared with the pure CsPbCl3 nanowires, photodetectors fabricated using these periodic heterostructure nanowires exhibit superior photoelectric performance, namely, high ION/IOFF ratio (104), higher responsivity (49 A/W), and higher detectivity (1.51 × 1013 Jones). Moreover, a spatially resolved visible image sensor based on periodic nanowire superlattices is demonstrated with good imaging capability, suggesting promising application prospects in future photoelectronic imaging systems. All these results based on the periodic CsPbCl3/CsPbI3 nanowire superlattices provides an attractive material platform for integrated perovskite devices and circuits. © 2024 American Chemical Society

Research Area(s)

  • on-wire bandgap design, perovskite nanowire superlattices, horizontal guided growth, heterostructure nanowire arrays, high-performance photodetection

Citation Format(s)

On-wire Design of Axial Periodic Halide Perovskite Superlattices for High-performance Photodetection. / Lv, Qihang; Shen, Xia ; Li, Xuyang et al.
In: ACS Nano, Vol. 18, No. 27, 09.07.2024, p. 18022-18035.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review