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Transfer of Thin Epitaxial Silicon Films by Wafer Bonding and Splitting of Double Layered Porous Silicon for SOI Fabrication
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作者 竺士炀 李爱珍 黄宜平 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2001年第12期1501-1506,共6页
A double layered porous silicon with different porosity is formed on a heavy doped p type Si(111) substrate by changing current density during the anodizing.Then a high quality epitaxial mono crystalline silicon fil... A double layered porous silicon with different porosity is formed on a heavy doped p type Si(111) substrate by changing current density during the anodizing.Then a high quality epitaxial mono crystalline silicon film is grown on the porous silicon using an ultra high vacuum electron beam evaporator.This wafer is bonded with other silicon wafer with a thermal oxide layer at room temperature.The bonded pairs are split along the porous silicon layer during subsequent thermal annealing.Thus the epitaxial Si film is transferred to the oxidized wafer to form a silicon on insulator structure.SEM,XTEM,spreading resistance probe and Hall measurement show that the SOI structure has good structural and electrical quality. 展开更多
关键词 SOI porous silicon silicon epitaxy wafer bonding
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Formation of Epitaxial Heavy-doped Silicon Films by PECVD Method
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作者 黄海宾 YUE Zhihao +4 位作者 HE Yuping YUAN Jiren ZENG Xiaoxing ZHOU Naigen 周浪 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2018年第3期585-588,共4页
Plasma-enhanced CVD(PECVD) epitaxy at 200℃ was used to deposit heavy doped n-type silicon films. Post-annealing by rapid thermal processing was applied to improve the properties of the epitaxial layer. By analyzing... Plasma-enhanced CVD(PECVD) epitaxy at 200℃ was used to deposit heavy doped n-type silicon films. Post-annealing by rapid thermal processing was applied to improve the properties of the epitaxial layer. By analyzing the Raman spectra and the imaginary part of the dielectric constant spectra of the samples, it was found that high-quality heavy-doped epitaxial n-type silicon layer can be obtained by optimizing the parameters of the PECVD depositing process. Reducing the electrodes distance of the PECVD had a great effect on the crystallzation of the epitaxialed n-type silicon films. Sillicon films with high-crystallization were obtained with the electrodes distance of 18 mm. Post-annealing process can improve the crystallization and reduce the resistance of the epitaxial films. In our research, it was found that the sheet resistance(R□) of the post-annealed films with thickness of about 50 nm has a simple relationship with RPH3/SiH4(ratio of the flow rate of PH3 and SiH4) of the PECVD processing: R□=-184-125 lg(R(PH3/SiH4)). In the end, high-quality epitaxial n-type silicon film was obtained with R□ of 15 Ω/□ and thickness of ~50 nm. 展开更多
关键词 heavy-doped n-type silicon epitaxial deposition PECVD
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Quartz Crystal Microbalances for Evaluating Gas Motion Differences between Dichlorosilane and Trichlorosilane in Ambient Hydrogen in a Slim Vertical Cold Wall Chemical Vapor Deposition Reactor 被引量:1
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作者 Mana Otani Toshinori Takahashi +3 位作者 Hitoshi Habuka Yuuki Ishida Shin-Ichi Ikeda Shiro Hara 《Advances in Chemical Engineering and Science》 2020年第3期190-200,共11页
A dichlorosilane gas and a trichlorosilane gas in ambient hydrogen were evaluated to show their different gas flow motions in a slim vertical cold wall chemical vapor deposition reactor for the Minimal Fab system. Thi... A dichlorosilane gas and a trichlorosilane gas in ambient hydrogen were evaluated to show their different gas flow motions in a slim vertical cold wall chemical vapor deposition reactor for the Minimal Fab system. This evaluation was performed for improving and controlling the film qualities and the productivities, using two quartz crystal microbalances (QCM) installed at the </span><span style="font-family:Verdana;">inlet and exhaust of the chamber by taking into account that the QCM frequency corresponds to the real time changes in the gas properties.</span><span style="font-family:Verdana;"> Typically, the time period approaching from the inlet to the exhaust was shorter for the trichlorosilane gas than that for the dichlorosilane gas. The trichlorosilane gas was shown to move like plug flow, while the dichlorosilane gas seemed to be well mixed in the entire chamber. 展开更多
关键词 Minimal Fab Chemical Vapor Deposition Reactor Quartz Crystal Microbalance silicon Epitaxial Growth TRICHLOROSILANE DICHLOROSILANE
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