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Highly‐Adaptable Optothermal Nanotweezers for Trapping, Sorting, and Assembling across Diverse Nanoparticles

Jiajie Chen, Jianxing Zhou, Yuhang Peng, Xiaoqi Dai, Yan Tan, Yili Zhong, Tianzhong Li, Yanhua Zou, Rui Hu, Ximin Cui, Ho‐Pui Ho, Bruce Z. Gao, Han Zhang, Yu Chen, Meiting Wang, Xueji Zhang, Junle Qu, Yonghong Shao

2023Advanced Materials45 citationsDOIOpen Access PDF

Abstract

Optical manipulation of various kinds of nanoparticles is vital in biomedical engineering. However, classical optical approaches demand higher laser power and are constrained by diffraction limits, necessitating tailored trapping schemes for specific nanoparticles. They lack a universal and biocompatible tool to manipulate nanoparticles of diverse sizes, charges, and materials. Through precise modulation of diffusiophoresis and thermo-osmotic flows in the boundary layer of an optothermal-responsive gold film, highly adaptable optothermal nanotweezers (HAONTs) capable of manipulating a single nanoparticle as small as sub-10 nm are designed. Additionally, a novel optothermal doughnut-shaped vortex (DSV) trapping strategy is introduced, enabling a new mode of physical interaction between cells and nanoparticles. Furthermore, this versatile approach allows for the manipulation of nanoparticles in organic, inorganic, and biological forms. It also offers versatile function modes such as trapping, sorting, and assembling of nanoparticles. It is believed that this approach holds the potential to be a valuable tool in fields such as synthetic biology, optofluidics, nanophotonics, and colloidal science.

Topics & Concepts

Materials scienceNanoparticleNanotechnologyOptofluidicsOptical tweezersNanophotonicsNanofluidicsNanobiotechnologyColloidal goldMicrofluidicsOpticsPhysicsMicrofluidic and Bio-sensing TechnologiesOrbital Angular Momentum in OpticsElectrohydrodynamics and Fluid Dynamics