Transport of Ultra-Large Cargo via Dynamic Janus Structure Reconstruction Enabled by Microrobots

Transport of Ultra-Large Cargo via Dynamic Janus Structure Reconstruction Enabled by Microrobots

Electric field-driven micro/nanorobots (MNRs), combined with dielectrophoretic forces, provide a label-free approach for active cargo transport. However, their ability to transport cargo becomes severely limited when the cargo volume exceeds their own by several orders of magnitude. In this work, we...

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Bibliographic Details
Main Author: Junmin Liu (5872562) (author)
Other Authors: Xiaocong Chang (4375765) (author), Rencheng Zhuang (21212022) (author), Ao Liang (19944080) (author), Shaobo Ding (8327160) (author), Jiaxu Dong (22254167) (author), Zuankai Wang (1596229) (author), Dekai Zhou (1535101) (author), Longqiu Li (4256611) (author)
Published: 2025
Subjects:
Biophysics
Biochemistry
Genetics
Biotechnology
Cancer
Inorganic Chemistry
Plant Biology
Biological Sciences not elsewhere classified
Physical Sciences not elsewhere classified
Information Systems not elsewhere classified
probabilistic statistical methods
microrobots electric field
frequency electric fields
000 times larger
mnrs ), combined
different motion patterns
dielectrophoretic forces required
atedms enable directed
controlled cargo transport
active cargo transport
cargo volume exceeds
dielectrophoretic forces
cargo transport
transported cargo
palletizing cargo
transport strategy
versatile approach
transporting large
thus generating
thus expanding
strongly influenced
single microrobot
several orders
optimal range
like structures
free approach
forming janus
driven micro
contact surfaces
complex environments
atedms ).
atedm numbers
application potential
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Summary:Electric field-driven micro/nanorobots (MNRs), combined with dielectrophoretic forces, provide a label-free approach for active cargo transport. However, their ability to transport cargo becomes severely limited when the cargo volume exceeds their own by several orders of magnitude. In this work, we propose a transport strategy that overcomes this limitation. Specifically, we introduce a “dynamic Janus structure reconstruction” transport strategy powered by asymmetric tubular electrically driven microrobots (ATEDMs). Under high-frequency electric fields, ATEDMs are attracted to the cargo, forming Janus-like structures and generating asymmetric electric field gradients around the contact surfaces, thus generating the dielectrophoretic forces required for cargo transport. The motion of the transported cargo is strongly influenced by the number and distribution of the ATEDMs, and the optimal range of ATEDM numbers for different motion patterns can be determined through probabilistic statistical methods. By integrating static magnetic fields, ATEDMs enable directed and controlled cargo transport. Additionally, we demonstrate the use of ATEDMs for palletizing cargo and transporting large biological tissues. This “dynamic Janus structure reconstruction” transport strategy allows for the transportation of cargoes more than 100,000 times larger than the volume of a single microrobot, providing an effective and versatile approach for transporting large-volume cargoes, thus expanding the application potential of MNRs in complex environments.

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