Nanotripods of Zinc Oxide

2006 IEEE Conference on Emerging Technologies - Nanoelectronics Pub Date : 2006-03-27 DOI:10.1109/NANOEL.2006.1609767

S. Mahmud, M. Abdullah

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引用次数: 17

Abstract

We report the discovery of two-dimensional (2-D) nanotripods of ZnO, a new member of the ZnO nanostructure family. These planar nanotripods are synthesized via a novel approach known as catalyst-free combust-oxidized mesh (CFCOM) process that we developed using a ZnO factory furnace. At about 1200 °C, high velocity zinc vapor is instantly oxidized and captured in a steel mesh for 20s and then air-quenched. From this subminute synthesis process, three types of polycrystalline 2-D tripodal nanostructures are discovered. The ZnO tripods are composed of three planar arms that appear as rectangular nanoplates. We propose two growth routes for these planar tripods, namely base-arm and tripodal-core routes. For the former route, growth begins with the base arm in [[unk] [unk] 20 ] direction. During quenching, the other two arms grow from newly formed tapered facets, ([unk]110) and (1[unk]10). The tripodal-core growth route involves the formation of a hexagonal disc with ±( 0002 ) larger surfaces. From this core, three arms grow simultaneously in [ 11[unk]0 ], [ [unk]10 ] and [ 1[unk]10 ] directions, while the core transforms into a Y-shaped configuration with ±( 10[unk]0), ±( 01[unk]0 ) and ±( [unk]100 ) planes. Morphological analyses are performed using FESEM, EDS, TEM and XRD. Photoluminescence test detects the presence of structural defects associated with green and red peak emissions.

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氧化锌纳米三脚架

我们报道了氧化锌的二维(2-D)纳米三脚架的发现，氧化锌纳米结构家族的新成员。这些平面纳米三脚架是通过一种被称为无催化剂燃烧氧化网(CFCOM)的新方法合成的，该方法是我们在ZnO工厂炉上开发的。在1200°C左右，高速锌蒸汽立即被氧化，并在钢网中捕获20s，然后空气淬火。从这个亚分钟的合成过程中，发现了三种类型的多晶二维三脚架纳米结构。ZnO三脚架由三个平面臂组成，它们看起来像矩形纳米板。我们提出了两种平面三脚架的生长路线，即基础臂和三脚架核心路线。对于前一种路线，生长从基础臂向[[unk] [unk] 20]方向开始。在淬火过程中，另外两个臂从新形成的锥形面([unk]110)和(1[unk]10)长出来。三脚架-核心的生长路线包括形成一个具有±(0002)大表面的六角形圆盘。从该核心出发，三条臂沿[11[unk]0]、[[unk]10]和[1[unk]10]方向同时生长，核心转变为±(10[unk]0)、±(01[unk]0)和±([unk]100)平面的y形构型。采用FESEM、EDS、TEM、XRD等进行了形貌分析。光致发光测试检测与绿色和红色峰值发射相关的结构缺陷的存在。

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2006 IEEE Conference on Emerging Technologies - Nanoelectronics

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