Toward Enhanced Aerosol Particle Adsorption in Never‐Bursting Bubble via Acoustic Levitation and Controlled Liquid Compensation

Xiaoliang Ji; Pingsong Jiang; Yichen Jiang; Hongyue Chen; Weiming Wang; Wenxuan Zhong; Xiaoqiang Zhang; Wei Zhao; Duyang Zang

doi:10.1002/advs.202300049

Advanced Science (Jul 2023)

Toward Enhanced Aerosol Particle Adsorption in Never‐Bursting Bubble via Acoustic Levitation and Controlled Liquid Compensation

Xiaoliang Ji,
Pingsong Jiang,
Yichen Jiang,
Hongyue Chen,
Weiming Wang,
Wenxuan Zhong,
Xiaoqiang Zhang,
Wei Zhao,
Duyang Zang

Affiliations

Xiaoliang Ji: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Pingsong Jiang: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Yichen Jiang: School of Marine Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Hongyue Chen: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Weiming Wang: Xiong'an Institute of Innovation Xiong'an 071899 P. R. China
Wenxuan Zhong: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Xiaoqiang Zhang: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China
Wei Zhao: State Key Laboratory of Photon‐Technology in Western China Energy International Scientific and Technological Cooperation Base of Photoelectric Technology and Functional Materials and Application Institute of Photonics and Photon‐technology Northwest University Xi'an 710127 P. R. China
Duyang Zang: School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 P. R. China

DOI: https://doi.org/10.1002/advs.202300049
Journal volume & issue: Vol. 10, no. 19
pp. n/a – n/a

Abstract

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Abstract Bubbles in air are ephemeral because of gravity‐induced drainage and liquid evaporation, which severely limits their applications, especially as intriguing bio/chemical reactors. In this work, a new approach using acoustic levitation combined with controlled liquid compensation to stabilize bubbles is proposed. Due to the suppression of drainage by sound field and prevention of capillary waves by liquid compensation, the bubbles can remain stable and intact permanently. It has been found that the acoustically levitated bubble shows a significantly enhanced particle adsorption ability because of the oscillation of the bubble and the presence of internal acoustic streaming. The results shed light on the development of novel air‐purification techniques without consuming any solid filters.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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