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3D‐Printed Light‐Driven Microswimmer with Built‐In Micromotors

Yin Chen, Huanhua Yang, Mingliang Li, Shilu Zhu, Shuo Chen, Liuyi Dong, Fuzhou Niu, Runhuai Yang

2021Advanced Materials Technologies23 citationsDOI

Abstract

Abstract Untethered biocompatible microswimmers driven by micromotors in fluids can enable innovative technologies in fields such as biology and chemical and biomedical engineering. However, efficiently driving and controlling the movement of microswimmers by light remains a challenge. Herein, a method for fabricating a light‐driven microswimmer with built‐in micromotors and 3D‐printed multiscale features that exhibits high photocatalytic performance is proposed. TiO 2 ‐CaCO 3 composite microparticles (TC) are fabricated as highly efficient micromotors that provide high photocatalytic efficiency in bubble generation, while 3D‐printed hydrogels are fabricated as TiO 2 ‐CaCO 3 /PEGDA (TC/P) microswimmers that provide biocompatibility, large specific surface area, and controllable movement. The results show that TC micromotors produced by physical mixing at a specific concentration exhibit a large specific surface area, reduced agglomeration, increased photocatalytic active sites, and improved photocatalytic stability. TC micromotors are effectively loaded into the porous hydrogel by 3D printing for multiscale fabrication to improve the photocatalytic performance across scales and realize effective and directional driving under violet light excitation. The TC/P microswimmers exhibit stable catalysis and motion in 7 days, at which point the catalysis by TiO 2 is already ineffective. With stability, biocompatibility, and biomedical functions, this multiscale fabricated microswimmer exhibits great potential in micromanipulation and targeted therapy.

Topics & Concepts

BiocompatibilityNanotechnologyMaterials scienceNanoroboticsPhotocatalysis3d printedFabricationBiocompatible material3D printingMicrofluidicsCatalysisBiomedical engineeringChemistryComposite materialEngineeringMedicineMetallurgyAlternative medicineBiochemistryPathologyMicro and Nano RoboticsMolecular Communication and NanonetworksPickering emulsions and particle stabilization
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