自离子注入纳米空腔诱导非晶硅固相外延动力学

2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2006-01-01 DOI:10.1109/NEMS.2006.334802

Xianfang Zhu

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引用次数: 0

摘要

研究了自离子注入纳米空化晶体硅制备的结构修饰非晶硅的固相外延再生。结果表明，虽然修饰后的非晶硅在外延再生过程中完全重构为单晶，但其再生的活化能和原子尝试频率都远高于在无纳米孔的硅片中自离子注入诱导的非晶硅。新的再生动力学表明，改性的非晶硅将含有非常高浓度的悬空键，这被认为是由于最初在晶体硅中亚稳态的纳米空隙解离的结果。SPEG无与伦比的灵敏度为检测和表征非晶硅纳米尺度的细微结构变化提供了一种有效而简单的方法

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Kinetics of Solid Phase Epitaxy of Amorphous Si Induced by Self-ion Implantation into Si with Nanocavities

The solid phase epitaxial regrowth of structurally modified amorphous silicon created by self-ion implantation into nanovoided crystalline silicon is investigated. It is demonstrated that although the modified amorphous silicon is fully reconstructed into single crystal during the epitaxial regrowth, both activation energy and atom attempt frequency for the regrowth are much higher than those of the typical amorphous Si induced by self-ion implantation into Si wafer without nanovoids. The novel regrowth kinetics indicates that the modified amorphous silicon would contain a very high concentration of dangling bonds, which are believed to result from dissociation of the nanovoids originally metastabilized in crystalline silicon. The unparalleled sensitivity of SPEG provides an effective and simple way to detect and characterize the subtle structural changes at nanometer scale in amorphous Si

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2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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