Title :
Electronic packaging for bio-diagnostic microfluidics application
Author :
Mastromatteo, U. ; Alzati, A. ; Brioschi, R. ; Conoci, S. ; De Fazio, M. ; Magni, P. ; Maierna, A. ; Marchi, M. ; Palmieri, M. ; Shaw, M. ; Suardi, M. ; Ziglioli, F.
Author_Institution :
ST Microelectron., Agrate Brianza, Italy
Abstract :
Silicon based semiconductors techniques are creating a solid base for a new category of micro electro mechanical systems (MEMS) with reliable structures for microfluidic functions, handling either electrical signals or mechanical/physical parameters. A particular category of these early developed devices is constituted by Bio-MEMS, providing electro-microfluidic features in order to integrate in one system all the functional elements needed for a complete bio-assay response. New packaging architectures are then coming much more a reality and in particular some simple concept-structures for DNA analysis on a single silicon device are involved in this bio-tech environment. Some notes on core biological characterizations of PCR and Matrix-Spot detection structures are also present in this paper.
Keywords :
DNA; bioMEMS; electronics packaging; elemental semiconductors; integrated circuit reliability; microfluidics; silicon; DNA analysis; PCR; Si; bio-assay response; bio-diagnostic microfluidics; bio-tech environment; bioMEMS; electrical signals; electromicrofluidic features; electronic packaging; functional elements; matrix-spot detection structures; mechanical/physical parameters; microelectromechanical systems; polymerase chain reaction; reliable structures; silicon based semiconductors techniques; single silicon device; DNA; Flexible printed circuits; Fluids; Glass; Resistors; Surface treatment;
Conference_Titel :
Microelectronics and Packaging Conference (EMPC), 2011 18th European
Conference_Location :
Brighton
Print_ISBN :
978-1-4673-0694-2
