Towards large scale preparation of carbon nanostructures in molten LiCl
Author:
Publisher
Elsevier BV
Subject
General Chemistry,General Materials Science
Reference36 articles.
1. Condensed-phase nanotubes;Hsu;Nature,1995
2. Electrolytic formation of carbon nanostructures;Hsu;Chem Phys Lett,1996
3. Electrolytic conversion of graphite to carbon nanotubes in fused salts;Chen;J Electroanal Chem,1998
4. Electrochemical investigation of the formation of carbon nanotubes in molten salts;Chen;High Temp Mater Process,1998
5. Introduction to carbon nanotubes;Monthioux,2007
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