A New Approach to In‐Situ “Micromanufacturing”: Microfluidic Fabrication of Magnetic and Fluorescent Chains Using Chitosan Microparticles as Building Blocks |
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Authors: | Kunqiang Jiang Chao Xue Chanda Arya Chenren Shao Elijah O. George Don L. DeVoe Srinivasa R. Raghavan |
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Affiliation: | 1. Departments of Chemistry & Biochemistry, University of Maryland, College Park, MD 20742, USA;2. Departments of Chemical & Biomolecular Engineering, University of Maryland, College Park, MD 20742, USA;3. Department of Mechanical Engineering, University of Maryland, College Park, MD 20742, USA |
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Abstract: | An in situ microfluidic assembly approach is described that can both produce microsized building blocks and assemble them into complex multiparticle configurations in the same microfluidic device. The building blocks are microparticles of the biopolymer chitosan, which is intentionally selected because its chemistry allows for simultaneous intraparticle and interparticle linking. Monodisperse chitosan‐bearing droplets are created by shearing off a chitosan solution at a microfluidic T‐junction with a stream of hexadecane containing a nonionic detergent. These droplets are then interfacially crosslinked into stable microparticles by a downstream flow of glutaraldehyde (GA). The functional properties of these robust microparticles can be easily varied by introducing various payloads, such as magnetic nanoparticles and/or fluorescent dyes, into the chitosan solution. The on‐chip connection of such individual particles into well‐defined microchains is demonstrated using GA again as the chemical “glue” and microchannel confinement as the spatial template. Chain flexibility can be tuned by adjusting the crosslinking conditions: both rigid chains and semiflexible chains are created. Additionally, the arrangement of particles within a chain can also be controlled, for example, to generate chains with alternating fluorescent and nonfluorescent microparticles. Such microassembled chains could find applications as microfluidic mixers, delivery vehicles, microscale sensors, or miniature biomimetic robots. |
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Keywords: | biopolymers chain structures in situ assembly microfluidics microparticles |
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