稀土学报(英文版)
稀土學報(英文版)
희토학보(영문판)
JOURNAL OF RARE EARTHS
2004年
6期
859-863
,共5页
朱燕娟%陈玉莲%陈建%林天津%张春华%刘秋香%张海燕
硃燕娟%陳玉蓮%陳建%林天津%張春華%劉鞦香%張海燕
주연연%진옥련%진건%림천진%장춘화%류추향%장해연
catalytic pyrolysis%CNTs%controllable diameter%rare earth
High-purity carbon nanotubes(CNTs)were synthesized in hydrogen ambience by CVD method by using rare earth alloy MlM5-1.35(CoAlMn)1.35 as catalyst, acetylene as carbon source. The influence of hydrogen flow rate on the diameter, shape, purity, graphitization degree and output of carbon nanotubes was systematically studied by scanning selectronic microscopy(SEM), transmission electron microscopy(TEM), X-ray diffraction(XRD)and Raman technique. The results indicate that the size of MlM alloy particles changed from μm order into nm order during the process of hydrogen reduction. While no introducing hydrogen in the reaction of acetylene and catalyst, CNTs can also be synthesized on the catalyst. The CNTs are short and thick with average diameter of about 97.8 nm, and the wall of CNTs is also thick and rough. With increasing of hydrogen flow rate, the diameter of CNTs first decrease and then increase, while the output, purity, and graphitization degree first increase and then decrease. The optimized conditions are: CNTs reach its narrowest size with diameter of 49.1 nm when hydrogen flow rate is 50 ml·min-1. The purity, graphitization degree, and output of CNTs reach highest and largest when hydrogren flow rate is 75 ml·min-1. It has the most uniform tube size of 97.38 nm when hydrogen flow rate is 100 ml·min-1.