Resonant Coherent Acoustic Oscillation in Nanoscale Ruddlesden–Popper Perovskite Films

Zhang, Zhen Yu; Wang, Guo Ping

doi:10.1002/adfm.202214542

Adv Funct Materials

2023

DOI: 10.1002/adfm.202214542

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Resonant Coherent Acoustic Oscillation in Nanoscale Ruddlesden–Popper Perovskite Films

Zhen Yu Zhang

Guo Ping Wang

Abstract: Time-domain study of coherent acoustic phonons in nanomaterials provides dynamic and unparalleled insight into their mechanical and structural features. Ruddlesden-Popper (RP) perovskite shows excellent acoustic behaviors due to the large impedance mismatch between its hard perovskite frameworks and soft organic chains. However, the optical probe-independent acoustic nano-mechanical resonance and its real application in this important class of semiconductors have not yet been achieved. Herein, the acoustic bre… Show more

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Cited by 3 publications

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Waveguide Photodetector Based on Perovskite Single-Crystal Heterojunction

Zhang,

Wang

2024

ACS Appl. Electron. Mater.

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Perovskite single-crystal sheet (SCS) lateral-structured photodetector typically needs to guide the signal light in free space to the SCS surface for photoelectric conversion to realize photodetection. However, the device performance in this working mode is highly dependent on the surface state of the active layer. To overcome this potential issue, this study puts forward a strategy of MAPbBr 3 -MAPbI 3 SCS heterojunction waveguide (HWG), in which MAPbBr 3 SCS is utilized as the waveguide (WG) structure to couple the far-field signal light into the confined near-field and propagates it to the active layer as a planar WG, directly exciting the internal single-crystal lattices of MAPbI 3 SCS, without taking into account the surface state. The device performance loss rate is 6 dB/mm, and its optimal performance can be increased by 60 times compared to that when light is guided to surface mode. Additionally, based on the visible light transparency and water insolubility of PbBr 2 , this study also verified the feasibility of PbBr 2 -MAPbI 3 HWG devices. Despite the suboptimal structural geometry of the PbBr 2 wire cluster leading to an increased loss rate of 11.3 dB/mm, the device encapsulated with silicone sealant demonstrates considerable stability, with the performance decaying by only 7% after being immersed in the water for 100 h. The findings of this study suggest that the constructed SCS-HWG configuration provides a feasible architecture for high-performance SCS photodetectors.

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Waveguide Photodetector Based on Perovskite Single-Crystal Heterojunction

Zhang,

Wang

2024

ACS Appl. Electron. Mater.

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Nanotip-based CMOS photosensitive architecture for highly sensitive near-infrared imaging detection

Liu,

Shi,

Duan

et al. 2023

Applied Physics Letters

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A type of nanotip-based photosensitive architecture for near-infrared imaging detection is effectively constructed by tightly coupling a chip of common photosensitive complementary–metal–oxide–semiconductor (CMOS) and a silicon nanotip optical antenna. Benefiting from the stimulated surface-wave nano-accumulating over silicon nanotips, the detectors exhibit a highly sensitive near-infrared detection feature with a stable normalized detectivity (D*) of ∼3.25 × 1010 cm·Hz1/2·W−1 and also the maximum value of ∼4.86 × 1011 cm·Hz1/2·W−1 corresponding to weak near-infrared radiation with a nW-level power. Moreover, a polarization sensitive character of the nanotip-based CMOS photosensitive architecture, enabling imaging grayscale closely related to incident radiation level being locally elevated, is also explored. The proposed antenna-based imaging detection approach exhibits a wider radiation response range as well as higher imaging contrast and definition. It can be expected that the imaging detection method will present a further developing potential according to the nanotip-based polarized imaging detection strategy.

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Coherent phonon signal amplification technique based on a numerical differentiation method

Wu,

Wang,

et al. 2024

Applied Physics Letters

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Coherent optical phonon (COP) and coherent acoustic phonon (CAP) play vital roles in probing ultrafast dynamics across various materials and systems. Their applications range from metamaterial diagnosis to manipulating ferroelectric polarization and self-trapping of carriers in perovskites. However, the inherently small signals associated with COP and CAP pose challenges in extracting valuable information. In this paper, we address this challenge by presenting a numerical differential method for signal amplification and deduction of phonon dephasing time. In addition, application of this method has been demonstrated in a superlattice system, establishing the validity and effectiveness of this technique.

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Resonant Coherent Acoustic Oscillation in Nanoscale Ruddlesden–Popper Perovskite Films

Cited by 3 publications

References 47 publications

Waveguide Photodetector Based on Perovskite Single-Crystal Heterojunction

Waveguide Photodetector Based on Perovskite Single-Crystal Heterojunction

Nanotip-based CMOS photosensitive architecture for highly sensitive near-infrared imaging detection

Coherent phonon signal amplification technique based on a numerical differentiation method

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