Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation

Yuyang Li; Zhongqiang Zhang; Chenglin Miao; Xu Du; Qiang Huang; Tatsuo Arai; Xiaoming Liu

doi:10.1109/IROS60139.2025.11247290

Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation

Yuyang Li
, Zhongqiang Zhang^*
, Chenglin Miao
, Xu Du
, Qiang Huang
, Tatsuo Arai
, Xiaoming Liu^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Micromanipulation techniques struggle to achieve three-dimensional rotational control at the microscale without compromising biocompatibility or spatial flexibility. Conventional methods based on mechanical contact, optical forces, or confined microfluidics constrain dynamic reconfiguration and surgical accessibility. Here, we introduce a dual-bubble acoustic micromanipulator that enables multidirectional rotation through controlled hydrodynamic fields. By placing oscillating microbubbles at the tips of micropipettes, this system creates adjustable vortex patterns: a single microbubble generates toroidal flows for out-of-plane rotation, while two microbubbles produce shear forces for in-plane spinning. This approach uses simple mechanical adjustments to control rotational axes in open fluid environments, without needing frequency modulation or phase synchronization. Flow-field simulations and experiments with polystyrene microspheres confirm deterministic orientation control, and tests with shrimp embryos demonstrate rotation at clinically relevant speeds. The open architecture integrates seamlessly with standard microscopy and robotic injection systems, offering a non-contact, precise tool for applications such as polar body alignment, intracellular surgery, and 3-D imaging.

Original language	English
Title of host publication	IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings
Editors	Christian Laugier, Alessandro Renzaglia, Nikolay Atanasov, Stan Birchfield, Grzegorz Cielniak, Leonardo De Mattos, Laura Fiorini, Philippe Giguere, Kenji Hashimoto, Javier Ibanez-Guzman, Tetsushi Kamegawa, Jinoh Lee, Giuseppe Loianno, Kevin Luck, Hisataka Maruyama, Philippe Martinet, Hadi Moradi, Urbano Nunes, Julien Pettre, Alberto Pretto, Tommaso Ranzani, Arne Ronnau, Silvia Rossi, Elliott Rouse, Fabio Ruggiero, Olivier Simonin, Danwei Wang, Ming Yang, Eiichi Yoshida, Huijing Zhao
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	3903-3908
Number of pages	6
ISBN (Electronic)	9798331543938
DOIs	https://doi.org/10.1109/IROS60139.2025.11247290
Publication status	Published - 2025
Externally published	Yes
Event	2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2025 - Hangzhou, China Duration: 19 Oct 2025 → 25 Oct 2025

Publication series

Name	IEEE International Conference on Intelligent Robots and Systems
ISSN (Print)	2153-0858
ISSN (Electronic)	2153-0866

Conference

Conference	2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2025
Country/Territory	China
City	Hangzhou
Period	19/10/25 → 25/10/25

Access to Document

10.1109/IROS60139.2025.11247290

Cite this

Li, Y., Zhang, Z., Miao, C., Du, X., Huang, Q., Arai, T., & Liu, X. (2025). Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation. In C. Laugier, A. Renzaglia, N. Atanasov, S. Birchfield, G. Cielniak, L. De Mattos, L. Fiorini, P. Giguere, K. Hashimoto, J. Ibanez-Guzman, T. Kamegawa, J. Lee, G. Loianno, K. Luck, H. Maruyama, P. Martinet, H. Moradi, U. Nunes, J. Pettre, A. Pretto, T. Ranzani, A. Ronnau, S. Rossi, E. Rouse, F. Ruggiero, O. Simonin, D. Wang, M. Yang, E. Yoshida, ... H. Zhao (Eds.), IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings (pp. 3903-3908). (IEEE International Conference on Intelligent Robots and Systems). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IROS60139.2025.11247290

Li, Yuyang ; Zhang, Zhongqiang ; Miao, Chenglin et al. / Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation. IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings. editor / Christian Laugier ; Alessandro Renzaglia ; Nikolay Atanasov ; Stan Birchfield ; Grzegorz Cielniak ; Leonardo De Mattos ; Laura Fiorini ; Philippe Giguere ; Kenji Hashimoto ; Javier Ibanez-Guzman ; Tetsushi Kamegawa ; Jinoh Lee ; Giuseppe Loianno ; Kevin Luck ; Hisataka Maruyama ; Philippe Martinet ; Hadi Moradi ; Urbano Nunes ; Julien Pettre ; Alberto Pretto ; Tommaso Ranzani ; Arne Ronnau ; Silvia Rossi ; Elliott Rouse ; Fabio Ruggiero ; Olivier Simonin ; Danwei Wang ; Ming Yang ; Eiichi Yoshida ; Huijing Zhao. Institute of Electrical and Electronics Engineers Inc., 2025. pp. 3903-3908 (IEEE International Conference on Intelligent Robots and Systems).

@inproceedings{c46b19789fd4474fb014732968350756,

title = "Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation",

abstract = "Micromanipulation techniques struggle to achieve three-dimensional rotational control at the microscale without compromising biocompatibility or spatial flexibility. Conventional methods based on mechanical contact, optical forces, or confined microfluidics constrain dynamic reconfiguration and surgical accessibility. Here, we introduce a dual-bubble acoustic micromanipulator that enables multidirectional rotation through controlled hydrodynamic fields. By placing oscillating microbubbles at the tips of micropipettes, this system creates adjustable vortex patterns: a single microbubble generates toroidal flows for out-of-plane rotation, while two microbubbles produce shear forces for in-plane spinning. This approach uses simple mechanical adjustments to control rotational axes in open fluid environments, without needing frequency modulation or phase synchronization. Flow-field simulations and experiments with polystyrene microspheres confirm deterministic orientation control, and tests with shrimp embryos demonstrate rotation at clinically relevant speeds. The open architecture integrates seamlessly with standard microscopy and robotic injection systems, offering a non-contact, precise tool for applications such as polar body alignment, intracellular surgery, and 3-D imaging.",

author = "Yuyang Li and Zhongqiang Zhang and Chenglin Miao and Xu Du and Qiang Huang and Tatsuo Arai and Xiaoming Liu",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2025 ; Conference date: 19-10-2025 Through 25-10-2025",

year = "2025",

doi = "10.1109/IROS60139.2025.11247290",

language = "English",

series = "IEEE International Conference on Intelligent Robots and Systems",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "3903--3908",

editor = "Christian Laugier and Alessandro Renzaglia and Nikolay Atanasov and Stan Birchfield and Grzegorz Cielniak and \{De Mattos\}, Leonardo and Laura Fiorini and Philippe Giguere and Kenji Hashimoto and Javier Ibanez-Guzman and Tetsushi Kamegawa and Jinoh Lee and Giuseppe Loianno and Kevin Luck and Hisataka Maruyama and Philippe Martinet and Hadi Moradi and Urbano Nunes and Julien Pettre and Alberto Pretto and Tommaso Ranzani and Arne Ronnau and Silvia Rossi and Elliott Rouse and Fabio Ruggiero and Olivier Simonin and Danwei Wang and Ming Yang and Eiichi Yoshida and Huijing Zhao",

booktitle = "IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings",

address = "United States",

}

Li, Y, Zhang, Z, Miao, C, Du, X, Huang, Q, Arai, T & Liu, X 2025, Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation. in C Laugier, A Renzaglia, N Atanasov, S Birchfield, G Cielniak, L De Mattos, L Fiorini, P Giguere, K Hashimoto, J Ibanez-Guzman, T Kamegawa, J Lee, G Loianno, K Luck, H Maruyama, P Martinet, H Moradi, U Nunes, J Pettre, A Pretto, T Ranzani, A Ronnau, S Rossi, E Rouse, F Ruggiero, O Simonin, D Wang, M Yang, E Yoshida & H Zhao (eds), IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings. IEEE International Conference on Intelligent Robots and Systems, Institute of Electrical and Electronics Engineers Inc., pp. 3903-3908, 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2025, Hangzhou, China, 19/10/25. https://doi.org/10.1109/IROS60139.2025.11247290

Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation. / Li, Yuyang; Zhang, Zhongqiang; Miao, Chenglin et al.
IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings. ed. / Christian Laugier; Alessandro Renzaglia; Nikolay Atanasov; Stan Birchfield; Grzegorz Cielniak; Leonardo De Mattos; Laura Fiorini; Philippe Giguere; Kenji Hashimoto; Javier Ibanez-Guzman; Tetsushi Kamegawa; Jinoh Lee; Giuseppe Loianno; Kevin Luck; Hisataka Maruyama; Philippe Martinet; Hadi Moradi; Urbano Nunes; Julien Pettre; Alberto Pretto; Tommaso Ranzani; Arne Ronnau; Silvia Rossi; Elliott Rouse; Fabio Ruggiero; Olivier Simonin; Danwei Wang; Ming Yang; Eiichi Yoshida; Huijing Zhao. Institute of Electrical and Electronics Engineers Inc., 2025. p. 3903-3908 (IEEE International Conference on Intelligent Robots and Systems).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation

AU - Li, Yuyang

AU - Zhang, Zhongqiang

AU - Miao, Chenglin

AU - Du, Xu

AU - Huang, Qiang

AU - Arai, Tatsuo

AU - Liu, Xiaoming

PY - 2025

Y1 - 2025

N2 - Micromanipulation techniques struggle to achieve three-dimensional rotational control at the microscale without compromising biocompatibility or spatial flexibility. Conventional methods based on mechanical contact, optical forces, or confined microfluidics constrain dynamic reconfiguration and surgical accessibility. Here, we introduce a dual-bubble acoustic micromanipulator that enables multidirectional rotation through controlled hydrodynamic fields. By placing oscillating microbubbles at the tips of micropipettes, this system creates adjustable vortex patterns: a single microbubble generates toroidal flows for out-of-plane rotation, while two microbubbles produce shear forces for in-plane spinning. This approach uses simple mechanical adjustments to control rotational axes in open fluid environments, without needing frequency modulation or phase synchronization. Flow-field simulations and experiments with polystyrene microspheres confirm deterministic orientation control, and tests with shrimp embryos demonstrate rotation at clinically relevant speeds. The open architecture integrates seamlessly with standard microscopy and robotic injection systems, offering a non-contact, precise tool for applications such as polar body alignment, intracellular surgery, and 3-D imaging.

AB - Micromanipulation techniques struggle to achieve three-dimensional rotational control at the microscale without compromising biocompatibility or spatial flexibility. Conventional methods based on mechanical contact, optical forces, or confined microfluidics constrain dynamic reconfiguration and surgical accessibility. Here, we introduce a dual-bubble acoustic micromanipulator that enables multidirectional rotation through controlled hydrodynamic fields. By placing oscillating microbubbles at the tips of micropipettes, this system creates adjustable vortex patterns: a single microbubble generates toroidal flows for out-of-plane rotation, while two microbubbles produce shear forces for in-plane spinning. This approach uses simple mechanical adjustments to control rotational axes in open fluid environments, without needing frequency modulation or phase synchronization. Flow-field simulations and experiments with polystyrene microspheres confirm deterministic orientation control, and tests with shrimp embryos demonstrate rotation at clinically relevant speeds. The open architecture integrates seamlessly with standard microscopy and robotic injection systems, offering a non-contact, precise tool for applications such as polar body alignment, intracellular surgery, and 3-D imaging.

UR - https://www.scopus.com/pages/publications/105029948534

U2 - 10.1109/IROS60139.2025.11247290

DO - 10.1109/IROS60139.2025.11247290

M3 - Conference contribution

AN - SCOPUS:105029948534

T3 - IEEE International Conference on Intelligent Robots and Systems

SP - 3903

EP - 3908

BT - IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings

A2 - Laugier, Christian

A2 - Renzaglia, Alessandro

A2 - Atanasov, Nikolay

A2 - Birchfield, Stan

A2 - Cielniak, Grzegorz

A2 - De Mattos, Leonardo

A2 - Fiorini, Laura

A2 - Giguere, Philippe

A2 - Hashimoto, Kenji

A2 - Ibanez-Guzman, Javier

A2 - Kamegawa, Tetsushi

A2 - Lee, Jinoh

A2 - Loianno, Giuseppe

A2 - Luck, Kevin

A2 - Maruyama, Hisataka

A2 - Martinet, Philippe

A2 - Moradi, Hadi

A2 - Nunes, Urbano

A2 - Pettre, Julien

A2 - Pretto, Alberto

A2 - Ranzani, Tommaso

A2 - Ronnau, Arne

A2 - Rossi, Silvia

A2 - Rouse, Elliott

A2 - Ruggiero, Fabio

A2 - Simonin, Olivier

A2 - Wang, Danwei

A2 - Yang, Ming

A2 - Yoshida, Eiichi

A2 - Zhao, Huijing

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2025

Y2 - 19 October 2025 through 25 October 2025

ER -

Li Y, Zhang Z, Miao C, Du X, Huang Q, Arai T et al. Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation. In Laugier C, Renzaglia A, Atanasov N, Birchfield S, Cielniak G, De Mattos L, Fiorini L, Giguere P, Hashimoto K, Ibanez-Guzman J, Kamegawa T, Lee J, Loianno G, Luck K, Maruyama H, Martinet P, Moradi H, Nunes U, Pettre J, Pretto A, Ranzani T, Ronnau A, Rossi S, Rouse E, Ruggiero F, Simonin O, Wang D, Yang M, Yoshida E, Zhao H, editors, IROS 2025 - 2025 IEEE/RSJ International Conference on Intelligent Robots and Systems, Conference Proceedings. Institute of Electrical and Electronics Engineers Inc. 2025. p. 3903-3908. (IEEE International Conference on Intelligent Robots and Systems). doi: 10.1109/IROS60139.2025.11247290

Dual-Bubble Coordinated Acoustic Micromanipulator for Multidirectional Object Rotation

Abstract

Publication series

Conference

Access to Document

Other files and links

Fingerprint

Cite this