FABRICATION OF SILICON MEMBRANE USING FUSION BONDING AND 2-STEP ELECTROCHEMICAL ETCH-STOPPING

Authors
JU, BKOH, MHTCHAH, KH
Issue Date
1994-02-01
Publisher
SPRINGER
Citation
JOURNAL OF MATERIALS SCIENCE, v.29, no.3, pp.664 - 668
Abstract
A new type of silicon membrane structure was fabricated using wafer fusion bon ng an two-step electrochemical etch-stopping methods. An ''active wafer'' of p-type epi/n-type epi/p-type substrate was first eletrochemically etched to form a shallow cavity on the p-type epitaxial layer. Then, the cavity-formed side was fusionally bonded with p-type silicon ''working wafer'' and, afterwards, the p-type substrate of the active wafer part was removed by a second electrochemical etch-stopping leaving only the n-type membrane on the shallow cavity. Using the new membrane structure in mechanical sensors, more precise control of cavity depth and membrane thickness was achievable and the influence of crystalline imperfections on the sensing circuits located near the bonding seam was avoidable.
Keywords
ETHYLENEDIAMINE-PYROCATECHOL-WATER; PRESSURE SENSORS; THICKNESS CONTROL; PASSIVATION; ETHYLENEDIAMINE-PYROCATECHOL-WATER; PRESSURE SENSORS; THICKNESS CONTROL; PASSIVATION; micromachining; direct bonding; micromechanical structure
ISSN
0022-2461
URI
https://pubs.kist.re.kr/handle/201004/145628
DOI
10.1007/BF00445976
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KIST Article > Others
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