Universitat Autònoma de Barcelona
The precise localization and controlled chemical treatment of structures on a surface are significant challenges for common laboratory technologies. Herein, we introduce a microfluidic-based technology, employing a double-layer microfluidic device, which can trap and localize in situ and ex situ synthesized structures on microfluidic channel surfaces. Crucially, we show how such a device can be used to conduct controlled chemical reactions onto on-chip trapped structures and we demonstrate how the synthetic pathway of a crystalline molecular material and its positioning inside a microfluidic channel can be precisely modified with this technology. This approach provides new opportunities for the controlled assembly of structures on surface and for their subsequent treatment.
English
Controlled chemical treatment; Double-layer chips; Microfluidics; Micro-valves; Pneumatic cages; Self-assembly
Journal of visualized experiments ; Vol. 113 (July 2016), art. e54193
open access
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