Ultrathin MgO Nanosheets Fabricated by Thermal Evaporation Method in Air at Atmospheric Pressure

材料科学 纳米晶 纳米线 阴极发光 蒸发 化学工程 扫描电子显微镜 透射电子显微镜 分析化学(期刊) Crystal(编程语言) 石墨 纳米技术 复合材料 发光 有机化学 化学 物理 光电子学 计算机科学 工程类 热力学 程序设计语言
作者
Geun-Hyoung Lee
出处
期刊:Korean Journal of Metals and Materials [The Korean Institute of Metals and Materials]
卷期号:60 (10): 769-773 被引量:2
标识
DOI:10.3365/kjmm.2022.60.10.769
摘要

Ultrathin MgO nanosheets were successfully synthesized by thermal evaporation of a mixture of Mg and graphite powders as the source material. The synthesis was performed at 1000 oC in air. Scanning electron microscopy showed that the two-dimensional MgO nanosheets had widths of several micrometers and the thickness of less than 20 nm. X-ray diffraction analysis revealed that the MgO nanosheets had a cubic crystal structure and high purity. Zero-dimensional MgO nanocubes were formed at temperatures below 1000 oC and one-dimensional MgO nanowires were grown at a temperature higher than 1000 oC. As the synthesis temperature increased, the morphology of the Mg nanocrystals changed from cube to sheet and then wire. The experimental results suggested that the difference in Mg vapor concentration could be responsible for the morphological change in the MgO nanocrystals. When Mg vapor concentration was low, MgO nanocrystals were grown with a cubic shape. A relatively high concentration of Mg vapor led to the growth of sheet-like MgO nanocrystals. A very high Mg vapor concentration favored the growth of MgO nanowires. The growth mechanism is discussed based on the Mg vapor concentration and the crystal structures of Mg and MgO. Visible emissions, which were attributed to lattice defects such as oxygen vacancies, were observed in the cathodoluminescence spectra of the MgO nanocrystals.
最长约 10秒,即可获得该文献文件

科研通智能强力驱动
Strongly Powered by AbleSci AI
科研通是完全免费的文献互助平台,具备全网最快的应助速度,最高的求助完成率。 对每一个文献求助,科研通都将尽心尽力,给求助人一个满意的交代。
实时播报
严惜完成签到,获得积分0
刚刚
刚刚
科研通AI6.2应助corazon采纳,获得10
2秒前
刘欢完成签到,获得积分10
2秒前
2秒前
葛甲率发布了新的文献求助10
3秒前
酷酷的糖豆完成签到,获得积分10
3秒前
4秒前
Dean发布了新的文献求助10
4秒前
5秒前
刘欢发布了新的文献求助10
5秒前
lq完成签到,获得积分10
6秒前
顾矜应助彩色的荔枝采纳,获得10
7秒前
guojiyao发布了新的文献求助10
8秒前
OneTion完成签到 ,获得积分10
8秒前
研友_VZG7GZ应助温暖凝天采纳,获得10
8秒前
yangjoy发布了新的文献求助10
9秒前
10秒前
QIYAXU完成签到,获得积分10
11秒前
11秒前
Planta完成签到,获得积分10
11秒前
碧蓝梦秋发布了新的文献求助10
11秒前
Ughitsmu完成签到,获得积分10
12秒前
12秒前
13秒前
慕青应助Jason-1024采纳,获得10
13秒前
cl完成签到,获得积分10
14秒前
干净冰露完成签到,获得积分10
14秒前
probiotics完成签到,获得积分10
14秒前
史先森完成签到,获得积分10
14秒前
钟钟完成签到 ,获得积分10
15秒前
15秒前
15秒前
15秒前
bingcha990完成签到,获得积分10
16秒前
SciGPT应助L2r采纳,获得10
16秒前
16秒前
bkagyin应助DDD采纳,获得30
17秒前
北风北风完成签到,获得积分10
17秒前
18秒前
高分求助中
Principles of Economics, 11th Edition 10000
University Physics with Modern Physics, 16th edition 10000
(应助此贴封号)【重要!!请各用户(尤其是新用户)详细阅读】【科研通的精品贴汇总】 10000
Matrix Methods in Data Mining and Pattern Recognition 510
Social Skills Improvement System-Rating Scales--Chinese Version 500
Dynamische Polarisation von H-1 und B-11 in (CH-3)-3NBH-3 500
CLSI M07 2024 500
热门求助领域 (近24小时)
化学 材料科学 医学 生物 纳米技术 工程类 有机化学 化学工程 生物化学 计算机科学 内科学 物理 复合材料 催化作用 细胞生物学 无机化学 光电子学 物理化学 电极 基因
热门帖子
关注 科研通微信公众号,转发送积分 7249165
求助须知:如何正确求助?哪些是违规求助? 8871958
关于积分的说明 18720596
捐赠科研通 6928460
什么是DOI,文献DOI怎么找? 3198645
关于科研通互助平台的介绍 2373978
邀请新用户注册赠送积分活动 2173284