High-Mobility CVD-Grown Ge/Strained Ge<sub>0.9</sub>Sn<sub>0.1</sub>/Ge Quantum-Well pMOSFETs on Si by Optimizing Ge Cap Thickness

Huang, Yuexiang; Tsou, Ya-Jui; Huang, Chia-Hong; Wang, Yi-Chia; Lan, Huang-Siang; C, Liu; Huang, Yi‐Chiau; Chung, Hua; Chang, Chorng‐Ping; Chu, Schubert S.; Kuppurao, Satheesh

doi:10.1109/ted.2017.2695664

Cited by 26 publications

(6 citation statements)

References 45 publications

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“…GeSn with a direct bandgap can emit light efficiently 4 and is compatible with COMS technology. [5][6][7] Noteworthy milestones like GeSn laser 2 have spurred a fast development in this research field. Besides the tunable bandgap, GeSn alloy is also predicted to hold high electron and hole mobility, which makes it a potential candidate material for both optoelectronic and electronic devices integrated on the Si platform.…”

Section: Introductionmentioning

confidence: 99%

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Zhang

Song

et al. 2017

AIP Advances

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GeSn alloy with 7.68% Sn concentration grown by molecular beam epitaxy has been rapidly annealed at different temperatures from 300°C to 800°C. Surface morphology and roughness annealed below or equal to 500°C for 1 min have no obvious changes, while the strain relaxation rate increasing. When the annealing temperature is above or equal to 600°C, significant changes occur in surface morphology and roughness, and Sn precipitation is observed at 700°C. The structural properties are analyzed by reciprocal space mapping in the symmetric (004) and asymmetric (224) planes by high resolution X-ray diffraction. The lateral correlation length and the mosaic spread are extracted for the epi-layer peaks in the asymmetric (224) diffraction. The most suitable annealing temperature to improve both the GeSn lattice quality and relaxation rate is about 500°C.

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Section: Introductionmentioning

confidence: 99%

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Zhang

Song

et al. 2017

AIP Advances

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“…They grew lateral Ge 1Àx Sn x /Ge MQW samples on Ge buffer/Si (100) substrate via molecular beam epitaxy (MBE). The designed MQW structures were formed from a Ge-buffer layer with a thickness of 500 nm by two-step growth, forming a 70 nm thick Ge buffer layer at a temperature of 300 C, covered by a 430 nm thick layer of Ge grown at 600 C. 97 Five quantum wells were grown of the composition 10 nm thick Ge 0.91 Sn 0.09 well layers at 190 C separated by 20 nm Ge barrier layers sandwiched between 150 nm thick n-and p-type Ge-cap layer to prevent Sn segregation in the GeSn layer, 98,99 as illustrated in Fig. 26a-c.…”

Section: Gesn-based Led Devicesmentioning

confidence: 99%

Impact of strain engineering and Sn content on GeSn heterostructured nanomaterials for nanoelectronics and photonic devices

et al. 2022

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“…8,9) Therefore, Ge is supposed to serve as a performance booster for the future generation 3D sequential CFET device. 3) However, despite the strong mobility enhancement in ETB Ge p-channel MOSFET (pMOSFET), [10][11][12][13][14] Ge n-channel MOSFET (nMOSFET) still suffers the degradation of effective electron mobility. 15) In order to achieve a balanced Ge-based CMOS performance, various methods have been proposed to enhance the electron transport properties in Ge nMOSFETs, including thickness-induced band modulation, 16) optimized surface orientation, 17,18) and the tensile strain effect.…”

Section: Introductionmentioning

confidence: 99%

Effects of post-deposition annealing temperature and atmosphere on interface properties in ALD Al₂O₃/plasma oxidation GeO _x /(111) and (100) n-Ge MOS structures

Han

Chen²,

Ke³

et al. 2023

Jpn. J. Appl. Phys.

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In this work, the effects of post-deposition annealing (PDA) on Al2O3/GeOx/(111) and (100) n-Ge structures are experimentally studied with changing annealing temperatures from 300 oC to 650 oC in a vacuum, N2 and O2 atmosphere in order to clarify the stability of the MOS interface properties under high-temperature annealing. A decrease in Dit and an increase in the oxide capacitance with increasing PDA temperature is observed up to 500~600 oC, depending on the annealing atmosphere and surface orientation. The minimum Dit of ~3×1011 eV-1cm-2 is achieved for (111) Ge after PDA at 550 oC and 600 oC in N2/O2 or vacuum. This trend is similar to the (100) MOS interfaces and similar amount of minimum Dit is obtained. These results suggest that the present Al2O3/GeOx/Ge interfaces are suitable for the formation of the Ge-On-insulator (GOI) back interfaces by the wafer bonding process in the Smart-cut, where high-temperature annealing is indispensable.

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High-Mobility CVD-Grown Ge/Strained Ge_0.9Sn_0.1/Ge Quantum-Well pMOSFETs on Si by Optimizing Ge Cap Thickness

Cited by 26 publications

References 45 publications

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Impact of strain engineering and Sn content on GeSn heterostructured nanomaterials for nanoelectronics and photonic devices

Effects of post-deposition annealing temperature and atmosphere on interface properties in ALD Al₂O₃/plasma oxidation GeO _x /(111) and (100) n-Ge MOS structures

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High-Mobility CVD-Grown Ge/Strained Ge0.9Sn0.1/Ge Quantum-Well pMOSFETs on Si by Optimizing Ge Cap Thickness

Cited by 26 publications

References 45 publications

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Effect of thermal annealing on structural properties of GeSn thin films grown by molecular beam epitaxy

Impact of strain engineering and Sn content on GeSn heterostructured nanomaterials for nanoelectronics and photonic devices

Effects of post-deposition annealing temperature and atmosphere on interface properties in ALD Al2O3/plasma oxidation GeO x /(111) and (100) n-Ge MOS structures

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Product

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High-Mobility CVD-Grown Ge/Strained Ge_0.9Sn_0.1/Ge Quantum-Well pMOSFETs on Si by Optimizing Ge Cap Thickness

Effects of post-deposition annealing temperature and atmosphere on interface properties in ALD Al₂O₃/plasma oxidation GeO _x /(111) and (100) n-Ge MOS structures