Passive micro-assembly of a fluidic control chip and a multi-well continuous flow PCR chip for high throughput applications

Authors

D. S. Park, Louisiana State University
H. Wang, Louisiana State University
P. C. Chen, Louisiana State University
T. Park, Louisiana State University
N. Kim, Louisiana State University
B. H. You, Louisiana State University
D. E. Nikitopoulos, Louisiana State University
S. A. Soper, Louisiana State University
M. C. Murphy, Louisiana State University

Document Type

Conference Proceeding

Publication Date

12-1-2010

Abstract

A fluidic control chip was incorporated to control delivery of PCR cocktail to a multi-well (MW) continuous flow PCR (CFPCR) chip. Passive micro-assembly was implemented for modular integration of the fluidic control chip and the CFPCR chip using three sets of passive alignment structures to obtain exact kinematic constraint. The fluidic control chip was assembled with the CFPCR chip by thermal bonding and used for parallel amplification of DNA fragments. Successful, simultaneous amplification of DNA fragments, with lengths of 99bp, 125bp, 150bp, 200bp, 500bp, 997bp, was demonstrated on the whole, high throughput CFPCR platform with a distributed thermal system.

Publication Source (Journal or Book title)

14th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2010, MicroTAS 2010

First Page

1226

Last Page

1228

Recommended Citation

Park, D., Wang, H., Chen, P., Park, T., Kim, N., You, B., Nikitopoulos, D., Soper, S., & Murphy, M. (2010). Passive micro-assembly of a fluidic control chip and a multi-well continuous flow PCR chip for high throughput applications. 14th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2010, MicroTAS 2010, 2, 1226-1228. Retrieved from https://repository.lsu.edu/mechanical_engineering_pubs/1782