A study of the autofluorescence of parylene materials for μTAS applications

Bo Lu, Siyang Zheng, Brandon Quoc Quach, Yu-Chong Tai
2010 Lab on a Chip  
Parylene-C has been widely used as a biocompatible material for microfluidics and micro total analysis system (mTAS) applications in recent decades. However, its autofluorescence can be a major obstacle for parylene-C based devices used in applications requiring sensitive fluorescence detection. In this paper, Parylene-C was compared with other commonly used polymer and plastic materials in mTAS devices for their autofluorescence. We also report here an in-depth study of the behaviors and
more » ... isms of the autofluorescence of parylene-C, as well as several other commercialized members in the parylene family, including parylene-D, parylene-N and parylene-HT, using epifluorescence microscopy, fluorimeter and infrared spectroscopy. Strong autofluorescence was induced in parylene-C during short-wavelength excitation (i.e. UV excitation). Variation of autofluorescence intensity of parylene-C film was found to be related to both dehydrogenation and photo-oxidation. Moreover, the influence of microfabrication process on parylene-C autofluorescence was also evaluated. Parylene-HT, which exhibits low initial autofluorescence, decreasing autofluorescence behavior under UV excitation and higher UV stability, can be a promising alternative for mTAS applications with fluorescence detection.
doi:10.1039/b924855b pmid:20431822 fatcat:ds7cpxhu4zg5lndnlty6jwk2gu