由石墨烯层封装的co颗粒的原位形成

Q3 Immunology and Microbiology Applied Microscopy Pub Date : 2022-07-14 DOI:10.1186/s42649-022-00076-z
Minjeong Lee, Gyutae Kim, Gyu Hyun Jeong, Aram Yoon, Zonghoon Lee, Gyeong Hee Ryu
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引用次数: 1

摘要

用石墨烯层封装钴纳米颗粒的工艺主要是直接热解。通过这种方法制备的杂化物的包封结构提高了催化剂的稳定性,大大减少了非金属的浸出,防止了金属纳米颗粒的生长超过一定的尺寸。在本研究中,在透射电子显微镜下通过提高温度形成被石墨烯层包围的钴颗粒,并使用扫描透射电子显微镜(STEM)对其进行分析。合成的氢氧化钴纳米片在TEM柱内使用原位加热支架获得钴颗粒。钴纳米颗粒被石墨烯层包围,层数随着温度的升高而增加。利用原子成像技术研究了石墨烯层间的间距。在石墨烯层中封装金属纳米颗粒的成功为设计高活性和可重复使用的多相催化剂铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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In-situ formation of co particles encapsulated by graphene layers

The process of encapsulating cobalt nanoparticles using a graphene layer is mainly direct pyrolysis. The encapsulation structure of hybrids prepared in this way improves the catalyst stability, which greatly reduces the leaching of non-metals and prevents metal nanoparticles from growing beyond a certain size. In this study, cobalt particles surrounded by graphene layers were formed by increasing the temperature in a transmission electron microscope, and they were analyzed using scanning transmission electron microscopy (STEM). Synthesized cobalt hydroxide nanosheets were used to obtain cobalt particles using an in-situ heating holder inside a TEM column. The cobalt nanoparticles are surrounded by layers of graphene, and the number of layers increases as the temperature increases. The interlayer spacing of the graphene layers was also investigated using atomic imaging. The success achieved in the encapsulation of metallic nanoparticles in graphene layers paves the way for the design of highly active and reusable heterogeneous catalysts for more challenging molecules.

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来源期刊
Applied Microscopy
Applied Microscopy Immunology and Microbiology-Applied Microbiology and Biotechnology
CiteScore
3.40
自引率
0.00%
发文量
10
审稿时长
10 weeks
期刊介绍: Applied Microscopy is a peer-reviewed journal sponsored by the Korean Society of Microscopy. The journal covers all the interdisciplinary fields of technological developments in new microscopy methods and instrumentation and their applications to biological or materials science for determining structure and chemistry. ISSN: 22875123, 22874445.
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