Issue 1, 2025

Dual-drive acoustic micromixer for rapid nucleation and ultrafast growth of perovskite nanoparticles

Abstract

All-inorganic cesium lead halide perovskites have garnered significant attention owing to their favorable optical properties. Microfluidics-based acoustic mixers are capable of achieving rapid nucleation and ultrafast growth kinetics. Nevertheless, conventional acoustic mixers rely on the response of microstructures to the acoustic field for mixing fluids, the majority of these disturbances occur in the central region of the channel, with minimal impact on the fluid within the side walls. This paper proposes a novel acoustic mixer that combines the effects of sharp corners and bubbles in response to the acoustic field, thereby producing effective disturbance of the fluid throughout the channel. The combined effect enables the micromixer to achieve complete mixing at different inlet flow ratios with mixing times as low as 5 ms. The superiority of acoustic mixers in controlling the nanocrystal formation stage was further validated through the synthesis of chalcogenide nanocrystals using the LARP method. The millisecond mixing time facilitated the rapid formation of nanocrystals and their subsequent rapid growth. The results demonstrate that the green luminescence intensity at 520 nm of the samples synthesized using the acoustic micromixer is 118% higher than that of the samples synthesized using an intermittent reactor. The novel micromixer broadens the range of applications and offers a promising avenue for the large-scale continuous synthesis of high-quality lead-halide perovskite nanocrystals (NCs).

Graphical abstract: Dual-drive acoustic micromixer for rapid nucleation and ultrafast growth of perovskite nanoparticles

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Article information

Article type
Paper
Submitted
01 Sept. 2024
Accepted
25 Okt. 2024
First published
30 Okt. 2024

Lab Chip, 2025,25, 7-15

Dual-drive acoustic micromixer for rapid nucleation and ultrafast growth of perovskite nanoparticles

Z. Liu, Y. Lu, W. Tan and G. Zhu, Lab Chip, 2025, 25, 7 DOI: 10.1039/D4LC00721B

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