Metal catalysis-free, direction-controlled planar growth of single-crystalline alpha-Si3N4 nanowires on Si(100) substrate

Wang XX; Liu JF; Cheng BW; Yu JZ; Wang QM

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Metal catalysis-free, direction-controlled planar growth of single-crystalline alpha-Si3N4 nanowires on Si(100) substrate

机译：Si（100）衬底上单晶α-Si3N4纳米线的无金属催化，方向受控的平面生长

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Single-crystalline alpha-Si3N4 nanowires are controlled to grow perpendicular to the wet-etched trenches in the SiO0.94 film on the plane of the Si substrate without metal catalysis. A detailed characterization is carried out by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The photoluminescence at 600 nm from alpha-Si3N4 nanowires is attributed to the recombination at the defect state formed by the Si dangling bond N3 equivalent to Si-center dot. The growth mechanism is considered to be related to the catalysis and nitridation of SiO nanoclusters preferably re-deposited around the inner corner of the trenches, as well as faster Si diffusion along the slanting side walls of the trenches. This simple direction-controlled growth method is compatible with the CMOS process, and could facilitate the fabrication of alpha-Si3N4 nanoelectronic or nanophotonic devices on the Si platform.

机译：控制单晶α-Si3N4纳米线，使其垂直生长在Si基板平面上的SiO0.94膜中的湿蚀刻沟槽上，而无需金属催化。通过扫描电子显微镜（SEM）和透射电子显微镜（TEM）进行详细的表征。 α-Si3N4纳米线在600 nm处的光致发光归因于缺陷状态下的重组，该缺陷状态是由与Si-中心点等效的Si悬空键N3形成的。该生长机理被认为与优选地重新沉积在沟槽的内角周围的SiO纳米簇的催化和氮化有关，以及沿着沟槽的倾斜侧壁更快的Si扩散。这种简单的方向控制生长方法与CMOS工艺兼容，并且可以促进在Si平台上制造alpha-Si3N4纳米电子或纳米光子器件。

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《Nanotechnology》 |2006年第15期|共5页
作者
Wang XX; Liu JF; Cheng BW; Yu JZ; Wang QM;
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正文语种 eng
中图分类一般工业技术;
关键词
SILICON-NITRIDE NANOWIRES; ARRAYS; SI3N4; SI;

机译：硅氮化物;阵列;SI3N4;SI;

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1. Metal catalysis-free, direction-controlled planar growth of single-crystalline alpha-Si3N4 nanowires on Si(100) substrate [J] . Wang XX, Liu JF, Cheng BW, Nanotechnology . 2006,第15期

机译：Si（100）衬底上单晶α-Si3N4纳米线的无金属催化，方向受控的平面生长
2. Epitaxial Growth of Well-Aligned Single-Crystalline VO2 Micro/ Nanowires Assisted by Substrate Facet Confinement [J] . Wang Liangxin, Ren Hui, Chen Shi, Crystal growth & design . 2018,第7期

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3. Supercritical fluid-solid growth of single-crystalline silicon nanowires: An example of metal-free growth in an organic solvent [J] . Yuan F.-W., Tuan H.-Y. Crystal growth & design . 2010,第11期

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Metal catalysis-free, direction-controlled planar growth of single-crystalline alpha-Si3N4 nanowires on Si(100) substrate

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