Title :
A Glass-in-Silicon Reflow Process for Three-Dimensional Microsystems
Author :
Haque, Razi-ul M. ; Wise, K.D.
Author_Institution :
Structured Microsyst. LLC, Ann Arbor, MI, USA
Abstract :
This paper reports a new batch-mode fabrication process that combines glass and silicon into a single wafer. The technique requires only a single mask to lithographically define recesses in silicon using deep reactive ion etching. The patterned silicon wafer is anodically bonded to a glass wafer, and a high-temperature step reflows the glass into this silicon mold. The reflowed wafer stack is then planarized and thinned. Through-glass vias can be realized in this manner while additional process-flow modifications enable features such as molded cavities in the glass. A capacitive pressure sensor and a hermetically sealed resonator are described to illustrate applications of the process. Finally, a three dimensional packaging technique for implantable biomedical microsystems is shown by vertically stacking glass-in-silicon wafers.
Keywords :
capacitive sensors; glass; integrated circuit packaging; lithography; masks; pressure sensors; resonators; silicon; sputter etching; three-dimensional integrated circuits; batch-mode fabrication process; capacitive pressure sensor; deep reactive ion etching; glass wafer; glass-in-silicon reflow process; hermetically sealed resonator; high-temperature step reflows; implantable biomedical microsystems; lithography; patterned silicon wafer; process-flow modifications; reflowed wafer stack; silicon mold; three dimensional packaging; three-dimensional microsystems; through-glass vias; vertical glass-in-silicon wafer stacking; Borosilicate glass; anodic bonding; glass etching; glass molding; glass reflow; silicon molding; vertical interconnect;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2013.2265851
