Journal
/
Environment
/
碳纳米材料的功能化和分散使用环境友好的超声波臭氧分解过程
JoVE Journal
Environment
A subscription to JoVE is required to view this content.  Sign in or start your free trial.
JoVE Journal Environment
Functionalization and Dispersion of Carbon Nanomaterials Using an Environmentally Friendly Ultrasonicated Ozonolysis Process
Please note that all translations are automatically generated. Click here for the English version.

碳纳米材料的功能化和分散使用环境友好的超声波臭氧分解过程

DOI:
10.3791/55614-v

08:33 min

May 30, 2017

, , , ,
1Aerospace Division,Defence Science and Technology Group, 2Maritime Division,Defence Science and Technology Group, 3Department of Chemistry and Physics, La Trobe Institute for Molecular Science,La Trobe University, 4Department of Mechanical Engineering,University of Delaware, 5Department of Materials Science and Engineering,University of Delaware, 6Center for Composite Materials,University of Delaware

Chapters

  • 00:05Title
  • 00:48Functionalization of CNTs and GNPs by Ultrasonic Ozonolysis
  • 03:03Electrophoresis
  • 05:47Results: Functionalization and Dispersion of Carbon Nanomaterials
  • 07:33Conclusion

Summary

Automatic Translation

Automatic Translation

这里描述了用于碳纳米材料在水性环境中的官能化和稳定分散的新方法。将臭氧直接注入碳纳米材料的水分散体中,其通过高功率超声波细胞连续再循环。

Tags

Carbon NanomaterialsUltrasonicationOzonolysisFunctionalizationDispersionHierarchical CompositesNanotubesNanoplateletsPolymeric ResinElectrophoretic DepositionMicrofiber FabricsOzone GeneratorPeristaltic PumpSonication

Article

Embed

ADD TO PLAYLIST

Usage Statistics

Related Videos

自动系统(绿色饲料)的用于监视肠道的甲烷和二氧化碳从反刍动物排放

测量碳为基础的污染物矿化结合使用CO<sub> 2</sub>助焊剂和放射性碳分析

通过他们的足迹识别个体:合模猎豹

活性有机碳评估土壤中连续熏蒸孵化程序

去除生物膜使用二氧化碳气溶胶没有氮气吹扫

与CO平衡的原油流变学测量<sub> 2</sub>在水库条件

纳米材料在水介质中的分散: 对协议优化的研究

利用主成分扩展地形模型绘制土壤再分配和土壤有机碳

热光学有机/元素碳测量的分割点分析与不确定性定量

测量实验室微量微生物中的磷释放,用于水质评估

Read Article