The first continuous flow micro PCR introduced in 1998 has attracted considerable attention for the past several years because of its ability to amplify DNA at much faster rate than the conventional PCR and micro chamber PCR method. The amplification is obtained by moving the sample through 3 different fixed temperature zones. In this paper, the thermal behavior of a continuous flow PCR chip is studied using commercially available finite element software. We study the temperature uniformity and temperature gradient on the chip’s top surface, the cover plate and the interface of the two layers. The material for the chip body and cover plate is glass. The duration for the PCR chip to achieve equilibrium temperature is also studied.
History
Event
International Society for Optical Engineering (2006 : Adelaide, S.Aust.)
Publisher
SPIE, International Society for Optical Engineering
Location
Adelaide, S. Aust.
Place of publication
Bellingham, Wash.
Start date
2006-12-01
End date
2006-12-13
ISBN-13
9780819465238
ISBN-10
0819465232
Language
eng
Publication classification
E1.1 Full written paper - refereed
Editor/Contributor(s)
J Chiao, A Dzurak, C Jagadish, D Thiel
Title of proceedings
SPIE 2006 : Proceedings : Micro and Nanotechnology : Materials, Processes, Packaging, and Systems III