首页> 外文会议>TMS annual meeting exhibition >The Transition from Amorphous Carbon to Carbon Nanohorns by DC Arc Discharge

【24h】

The Transition from Amorphous Carbon to Carbon Nanohorns by DC Arc Discharge

机译：直流电弧放电从无定形碳到碳纳米角的转变

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Amorphous carbon and carbon nanohorns had aroused an extensive concern due to their unique structure and wide application. It is worth noting that amorphous carbon nanoballs and carbon nanohorns can be obtained by a DC arc discharge. Remarkably, amorphous carbon nanoballs with the size of 20-80 nm were found in the air pressure of 40 kPa and a transition state of carbon nanostructures from amorphous carbon to carbon nanohorns was appeared with the increase of pressure. However, 'dahlia-shaped' carbon nanohorns with the size of 30-100 nm have been synthesized by a direct current (DC) arc discharge when the pressure of the buffer air is raised to 70 kPa. According to the above results, the growth mechanism of the transition from amorphous carbon to carbon nanohorns by a DC arc discharge was investigated. Namely, the species of buffer gas are key factors to the transition processes.

机译：非晶碳和碳纳米角因其独特的结构和广泛的应用而引起了广泛的关注。值得注意的是，无定形碳纳米球和碳纳米角可通过直流电弧放电获得。值得注意的是，在40 kPa的气压下发现尺寸为20-80 nm的无定形碳纳米球，并且随着压力的增加，出现了从无定形碳到碳纳米角的碳纳米结构过渡态。但是，当缓冲空气的压力升高到70 kPa时，通过直流（DC）电弧放电合成了大小为30-100 nm的“大丽花形”碳纳米角。根据以上结果，研究了通过直流电弧放电从无定形碳向碳纳米角转变的生长机理。即，缓冲气体的种类是过渡过程的关键因素。

著录项

来源
《TMS annual meeting exhibition》|2020年|735-741|共7页
会议地点
作者
Da Zhang; Feng Liang; Kai Ye; Tao Qu; Yongnian Dai;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Air; Transition; Amorphous carbon; Carbon nanohorns; DC arc discharge;

机译：空气;过渡;非晶碳碳纳米角;直流电弧放电;

相似文献

外文文献
中文文献
专利

1. Amorphous carbon nanotubes produced by a temperature controlled DC arc discharge [J] . Yongning Liu, Song Xiaolong, Zhao Tingkai, Carbon: An International Journal Sponsored by the American Carbon Society . 2004,第8a9期

机译：通过温控直流电弧放电生产的非晶碳纳米管
2. Optimization of pore-opening condition in single-walled carbon nanohorns to achieve high capacity in double layer capacitor at high charge-discharge rate: Critical effect of their hierarchical pore structures [J] . Nan Yanli, Li Bo, Song Xiaolong, Carbon: An International Journal Sponsored by the American Carbon Society . 2019,第期

机译：单壁碳纳米孔孔隙打开状态的优化在高电荷 - 放电率下双层电容器中的高容量：其等级孔隙结构的临界效果
3. Maximization of Carbon Nanohorns Production via the Arc Discharge Method for Hydrotreating Application [J] . Aryee Emma, Dalai Ajay K., Adjaye John Journal of nanoscience and nanotechnology . 2017,第7期

机译：通过用于加氢处理应用的电弧放电方法产生碳纳米植物的最大化
4. The Transition from Amorphous Carbon to Carbon Nanohorns by DC Arc Discharge [C] . D. Zhang, F. Liang, K. Ye Annual Meeting Exhibition of The Minerals, Metals Materials Society . 2020

机译：通过直流电弧放电从非晶碳转变为碳纳米
5. Arc-discharge in solution: A novel synthesis method for carbon nanotubes and in situ decoration of carbon nanotubes with nanoparticles. [D] . Bera, Debasis. 2005

机译：溶液中的电弧放电：一种新的合成碳纳米管的方法，以及用纳米粒子原位装饰碳纳米管的方法。
6. Phase transitions in biogenic amorphous calcium carbonate [O] . Yutao U. T. Gong, Christopher E. Killian, Ian C. Olson, 2012

机译：生物型无定形碳酸钙中的相变
7. Origin of giant graphite balls including in the carbon nanohorns prepared by pulsed arc-discharge and their removal method [O] . Takashi Yamaguchi, Shunji Bandow, Sumio Iijima 2008

机译：巨型石墨球的起源，包括通过脉冲电弧放电制备的碳纳米山脉及其去除方法
8. Control of Flow Structure and Ignition of Hydrocarbon Fuel in Cavity and Behind Wallstep of Supersonic Duct by Filamentary DC Discharge [R] . Leonov, S. B. 2011

机译：超细直流放电控制超音速管腔内及后面的烃类燃料流动结构和点火

The Transition from Amorphous Carbon to Carbon Nanohorns by DC Arc Discharge

摘要

著录项

相似文献

相关主题

期刊订阅