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  • Fracture-based fabrication of normally closed, adjustable, and fully reversible microscale fluidic channels.

Fracture-based fabrication of normally closed, adjustable, and fully reversible microscale fluidic channels.

Small (Weinheim an der Bergstrasse, Germany) (2014-06-20)
Byoung Choul Kim, Christopher Moraes, Jiexi Huang, Toshiki Matsuoka, M D Thouless, Shuichi Takayama
ANOTACE

Adjustable fluidic structures play an important role in microfluidic systems. Fracture of multilayered materials under applied tension has been previously demonstrated as a convenient, simple, and inexpensive approach to fabricate nanoscale adjustable structures; here, it is demonstrated how to extend this concept to the microscale. This is achieved by a novel pairing of materials that leverages fracture mechanics to limit crack formation to a specified region, allowing to create size-controllable and adjustable microfluidic structures. This technique can be used to fabricate "normally closed" microfluidic channels that are completely reversible, a feature that is challenging to achieve in conventional systems without careful engineering controls. The adjustable microfluidic channels are then applied to mechanically lyse single cells, and subsequently manipulate the released nuclear chromatin, creating new possibilities for epigenetic analysis of single cells. This simple, versatile, and robust technology provides an easily accessible pathway to construct adjustable microfluidic structures, which will be useful in developing complex assays and experiments even in resource-limited settings.

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Sigma-Aldrich
2,4,6,8-Tetramethyl-2,4,6,8-tetravinylcyclotetrasiloxane