新型硅纳米晶形成技术应用于硅纳米结构的制备

Digest of Papers. Microprocesses and Nanotechnology '99. 1999 International Microprocesses and Nanotechnology Conference Pub Date : 1999-07-06 DOI:10.1109/IMNC.1999.797505

M. Takeguchi, K. Furuya, K. Yoshihara

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引用次数: 1

摘要

纳米结构(nanostructure)的制造在材料科学领域具有很大的吸引力，因为人们期望在低维和小尺寸材料中出现新的物理和光学性质。我们发现在电子束的高温照射下，可以在SiO/sub - 2/薄膜中形成硅纳米晶体。本工作的样品是由SiO/ sub2 /单晶(石英)制备的。为了减少硅原子溅射，电子束的加速电压为100千伏。即使电流密度小于10/sup 5/ A/m/sup 2/，电子束辐照也容易使SiO/sub 2/薄膜的薄层非晶化。在UHV-FE-TEM中，当高强度电子束在850 K下聚焦在非晶化SiO/sub - 2/薄膜上时，在辐照区出现了直径与束径相当的晶体Si纳米颗粒(几nm)。

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Novel Si nanocrystal formation technique as applied to fabrication of Si nanostructure

The fabrication of nanometer sized structure (nanostructure) has been attractive in the field of material science because the appearance of novel physical and optical properties is expected in low-dimensional and size-reduced materials. We have discovered that Si nanocrystals can be formed in a SiO/sub 2/ thin film under irradiation of an electron beam at high temperature. The specimen in the present work was prepared from a SiO/sub 2/ single crystal (quartz). The acceleration voltage of an electron beam was 100 kV in order to reduce sputtering for Si atoms. The thin area of the SiO/sub 2/ film was easily amorphized by irradiation of the electron beam even if the current density was less than 10/sup 5/ A/m/sup 2/. When the high intensity electron beam was focused on the amorphized SiO/sub 2/ thin film at 850 K inside an UHV-FE-TEM, crystalline Si nanoparticles emerged at the irradiated area, the diameter of which was as large as the beam diameter (several nm).

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Digest of Papers. Microprocesses and Nanotechnology '99. 1999 International Microprocesses and Nanotechnology Conference

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