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国家自然科学基金(s60625403)

作品数:6 被引量:10H指数:1
发文基金:国家自然科学基金国家重点基础研究发展计划更多>>
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Impact of nitrogen plasma passivation on the interface of germanium MOS capacitor
2014年
Nitrogen plasma passivation (NPP) on (111) germanium (Ge) was studied in terms of the interface trap density, roughness, and interfacial layer thickness using plasma-enhanced chemical vapor deposition (PECVD). The results show that NPP not only reduces the interface states, but also improves the surface roughness of Ge, which is beneficial for suppressing the channel scattering at both low and high field regions of Ge MOSFETs. However, the interracial layer thickness is also increased by the NPP treatment, which will impact the equivalent oxide thickness (EOT) scaling and thus degrade the device performance gain from the improvement of the surface morphology and the interface passivation. To obtain better device performance of Ge MOSFETs, suppressing the interfacial layer regrowth as well as a trade-off with reducing the interface states and roughness should be considered carefully when using the NPP process.
云全新黎明安霞林猛刘朋强李志强张冰馨夏宇轩张浩张兴黄如王阳元
关键词:GERMANIUMROUGHNESS
Experimental clarification of orientation dependence of germanium PMOSFETs with Al_2O_3/GeO_x/Ge gate stack
2014年
An extensive and complete experimental investigation with a full layout design of the channel direction was carried out for the first time to clarify the orientation dependence of germanium p-channel metal-oxide-semiconductor field-effect transistors (PMOSFETs). By comparison of gate trans-conductance, drive current, and hole mobility, we found that the performance trend with the substrate orientation for Ge PMOSFET is (110)〉(111) ~ (100), and the best channel direction is (110)/[110]. Moreover, the (110) device performance was found to be easily degraded as the channel direction got off from the [ 110] orientation, while (100) and (111) devices exhibited less channel orientation dependence. This experimental result shows good matching with the simulation reports to give a credible and significant guidance for Ge PMOSFET design.
云全新黎明安霞林猛刘朋强李志强张冰馨夏宇轩张浩张兴黄如王阳元
关键词:GERMANIUMORIENTATION
Fabricating GeO_2 passivation layer by N_2O plasma oxidation for Ge NMOSFETs application被引量:1
2014年
In this paper, oxidation of Ge surface by N2O plasma is presented and experimentally demonstrated. Results show that 1.0-nm GeO2 is achieved after 120-s N20 plasma oxidation at 300 ℃. The GeO2/Ge interface is atomically smooth. The interface state density of Ge surface after N20 plasma passivation is about - 3 × 1011 cm-2.eV-1. With GeO2 passivation, the hysteresis of metal-oxide-semiconductor (MOS) capacitor with A1203 serving as gate dielectric is reduced to - 50 mV, compared with - 130 mV of the untreated one. The Fermi-level at GeO2/Ge interface is unpinned, and the surface potential is effectively modulated by the gate voltage.
林猛安霞黎明云全新李敏李志强刘朋强张兴黄如
Challenges of 22 nm and beyond CMOS technology被引量:8
2009年
It is predicted that CMOS technology will probably enter into 22 nm node around 2012. Scaling of CMOS logic technology from 32 to 22 nm node meets more critical issues and needs some significant changes of the technology, as well as integration of the advanced processes. This paper will review the key processing technologies which can be potentially integrated into 22 nm and beyond technology nodes, including double patterning technology with high NA water immersion lithography and EUV lithography, new device architectures, high K/metal gate (HK/MG) stack and integration technology, mobility enhancement technologies, source/drain engineering and advanced copper interconnect technology with ultra-low-k process.
HUANG RuWU HanMingKANG JinFengXIAO DeYuanSHI XueLongAN XiaTIAN YuWANG RunShengZHANG LiangLiangZHANG XingWANG YangYuan
The modulation of Schottky barrier height of NiSi/n-Si Schottky diodes by silicide as diffusion source technique
2009年
This paper reports that the Schottky barrier height modulation of NiSi/n-Si is experimentally investigated by adopting a novel silicide-as-diffusion-source technique, which avoids the damage to the NiSi/Si interface induced from the conventional dopant segregation method. In addition, the impact of post-BF2 implantation after silicidation on the surface morphology of Ni silicides is also illustrated. The thermal stability of Ni silicides can be improved by silicide- as-diffusion-source technique. Besides, the electron Schottky barrier height is successfully modulated by 0.11 eV at a boron dose of 1015 cm-2 in comparison with the non-implanted samples. The change of barrier height is not attributed to the phase change of silicide films but due to the boron pile-up at the interface of NiSi and Si substrate which causes the upward bending of conducting band. The results demonstrate the feasibility of novel silicide-as-diffusion-source technique for the fabrication of Schottky source/drain Si MOS devices.
安霞范春晖黄如郭岳徐聪张兴王阳元
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