CAJ | 학술논문

以CO_2O_3和FeS的混和物做催化剂前驱物,利用热等离子射流法制得包含碳纳米管的固相物,通过扫描电镜、透射电镜对产物进行表征并与高纯单质金属催化碳纳米管生长的类似文献报道做对比,证实其中碳纳米管密度大、纯度高、管径分布小、大部分为50～90nm的直线型多壁管且相互独立、管壁平滑、厚度约为10nm,在数量和质量上均可与已报道文献相比.结果表明,催化剂中微量氧的存在不仅不会影响催化效果,还有助于提高产物中碳纳米管纯度.
이CO_2O_3화FeS적혼화물주최화제전구물,이용열등리자사류법제득포함탄납미관적고상물,통과소묘전경、투사전경대산물진행표정병여고순단질금속최화탄납미관생장적유사문헌보도주대비,증실기중탄납미관밀도대、순도고、관경분포소、대부분위50～90nm적직선형다벽관차상호독립、관벽평활、후도약위10nm,재수량화질량상균가여이보도문헌상비.결과표명,최화제중미량양적존재불부불회영향최화효과,환유조우제고산물중탄납미관순도.
The solid phase of materials including carbon nanotubes was successfully synthesized by decomposition of methane using thermal plasma jet with the cheap, green mixture of Co_2O_3and FeS as catalyst. The products were charac-terized by scanning electron microscopy, transmission electron microscopy. The comparison of images between our present products and the results obtained by the same method using high-purity metal catalysts in comparative literature confirmed that our carbon nanotubes featured high density and purity, narrow distribution of diameter (the majority of 50～90 nm outer-diameter), the conformation of multi-wall and mutual independence, the appearance of smooth wall and about 10nm of thickness. All those confirmed that the quantity and quality of our results can be compared with the reported literatures, further more, a trace of oxygen in catalysts will not affect the catalytic effect to the growth of nanotubes. Therefore, the present experiment is propitious to explore a way for the continuous, low-cost, green production of carbon nanotubes.