Heterogeneous Integration Toward a Monolithic 3-D Chip Enabled by III-V and Ge Materials

Authors
Kim, Sang-HyeonKim, Seong-KwangShim, Jae-PhilGeum, Dae-MyeongJu, GunwuKim, Han-SungLim, Hee-JeongLim, Hyeong-RakHan, Jae-HoonLee, SubinKim, Ho-SungBidenko, PavloKang, Chang-MoLee, Dong-SeonSong, Jin-DongChoi, Won JunKim, Hyung-Jun
Issue Date
2018-05
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Citation
IEEE JOURNAL OF THE ELECTRON DEVICES SOCIETY, v.6, no.1, pp.579 - 587
Abstract
Monolithic 3-D integration has emerged as a promising technological solution for traditional transistor scaling limitations and interconnection bottleneck. The challenge we must overcome is a processing temperature limit for top side devices in order to ensure proper performance of bottom side devices. To solve this problem, we developed a low temperature III-V and Ge layer stacking process using wafer bonding and epitaxial lift-off, since these materials can be processed at a low temperature and provide extended opportunity/functionality (sensor, display, analog, RF, etc.) via heterogeneous integration. In this paper, we discuss technology for integrating III-V and Ge materials and its applicability to CMOS, thin film photodiodes, mid-infrared photonics platforms, and MicroLED display integration for creating the ultimate 3-D chip of the future.
Keywords
SI SUBSTRATE; MIDINFRARED PHOTONICS; SILICON; FABRICATION; SI SUBSTRATE; MIDINFRARED PHOTONICS; SILICON; FABRICATION; Heterogeneous integration; monolithic 3D; sequential 3D; layer transfer; wafer bonding; epitaxial lift-off; III-V-OI; GOI; thin film PD; mid-IR photonics; microLED
ISSN
2168-6734
URI
https://pubs.kist.re.kr/handle/201004/121402
DOI
10.1109/JEDS.2018.2802840
Appears in Collections:
KIST Article > 2018
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