In situ preparation method for novel iron/carbon nano-tube grading nano-composite material
A nanocomposite material and carbon nanotube technology, applied in the field of nanocomposite, can solve the problems of long cycle, application limitation, complicated steps, etc., and achieve the effects of low cost, simple and easy process, and good repeatability.
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Embodiment 1
[0041] Load 1 milliliter of iron pentacarbonyl and 2 grams of polyethylene glycol 20000 in ceramic arks of 8 cm × 1.2 cm × 1 cm respectively, place them in a tube furnace (inner diameter × tube length = Φ2 cm × 60 cm), and raise the temperature under nitrogen protection After heat preservation at 300°C for 30 minutes, continue to raise the temperature to 700°C and heat preservation for 2 hours. After the reaction was completed, it was cooled to room temperature with the furnace under the protection of nitrogen, and the morphology of the resulting product was as follows: figure 1 and figure 2 Shown is a new iron / carbon nanotube hierarchical nanocomposite. image 3 The EDS spectrum of the product shows that the mass percentages of carbon and iron are 75.60% and 24.40%, respectively. The TEM image of the product was observed under the transmission electron microscope Figure 4 , it can be seen that the carbon on the surface of the hierarchical structure exists in the form of ...
Embodiment 2
[0043] The process in Example 1 was adopted, except that when the iron pentacarbonyl was 2 ml and the shielding gas was a mixed gas of nitrogen and argon (volume ratio=1:1). The morphology of the obtained product is as Figure 5 and Figure 6 Shown is a new iron / carbon nanotube hierarchical nanocomposite. Figure 7 The EDS spectrum of the product shows that the mass percentages of carbon and iron are 66.17% and 33.83%, respectively. This indicates that adjusting the mass ratio of organic matter to iron source can not only change the morphology of the product, but also regulate the composition of the product.
Embodiment 3
[0045] Adopt the technique in embodiment 2, difference is: when polyethylene glycol 20000 is 0.5 gram. From Figure 8 The EDS spectrum of the elemental composition analysis shows that the mass percentages of carbon and iron are 10.88% and 89.12% respectively. The morphology of the obtained product is as Figure 9 and Figure 10 shown. Because the relative content of organic matter is small, the carbon source is low and the carbon tubes grown on the surface are short. This indicates that adjusting the relative content of carbon source can also adjust the morphology of the product.
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