Synthesis of silicone carbide nanowhiskers by microwave irradiation method

Synthesis of silicone carbide nanowhiskers by microwave irradiation method

This work described the synthesis of silicon carbide nanowhiskers (SiCNWs) by using the microwave heating.. The main objective of this project is to study the feasibility of synthesis of SiCNWs from expanded graphite (EG) and silica using microwaves heating. Several parameters were studied such a...

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Bibliographic Details
Format: Thesis
Language:English
Subjects:
Silicon carbide
Silica
Silicon compounds
Microwave heating
Nanotechnology
Online Access:http://dspace.unimap.edu.my:80/xmlui/bitstream/123456789/76729/1/Page%201-24.pdf
http://dspace.unimap.edu.my:80/xmlui/bitstream/123456789/76729/2/Full%20text.pdf
http://dspace.unimap.edu.my:80/xmlui/bitstream/123456789/76729/3/Declaration%20Form.pdf
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Summary:This work described the synthesis of silicon carbide nanowhiskers (SiCNWs) by using the microwave heating.. The main objective of this project is to study the feasibility of synthesis of SiCNWs from expanded graphite (EG) and silica using microwaves heating. Several parameters were studied such as the effect of ratio of graphite and silica, heating temperature, heating duration and types of graphite on the formation of SiCNWs in term of morphology, compositions, optical properties and purity. In this study, SiCNWs was synthesized by microwave heating mixture of EG and silica and the effect of processing parameters on the synthesis were studied. For effect of ratio of EG and silica, the mixture of EG and silica with the ratio 1:3 was found to be suitable for the synthesis of SiCNWs because the formation of high purity β-SiC nanowhiskers. Mixture of silica and EG with the ratios 1:5 and 1:7 had the traces of unreacted graphite. Study of effect of heating temperature revealed a temperature at 1400 ºC is suitable for the synthesis of SiCNWs. β-SiC appeared as the only phase in the XRD pattern of SiCNWs formed at 1400˚C. FESEM imaging confirmed the presence of only a negligible amount of graphite or silica in SiCNWs synthesized at 1400˚C. Meanwhile, PL spectrum indicated the presence of single phase β-SiC peak at 440 nm which is associated with band gap of 2.8 eV. Single absorption bands of Si-C bond were detected at 803.5 cm-1 in FTIR analysis. SiCNWs produced in this study at 1400˚C has good thermal stability with 6% of weight loss. Effect of heating duration was also studied and 40 minutes was found to be the most ideal heating duration for the synthesis of SiCNWs. β-SiC appeared as the only phase in the XRD pattern for SiCNWs formed by using 40 and 60 minutes of heating duration with no traces of unreacted silica and graphite. FESEM imaging confirmed that no trace of graphite or silica was present in SiCNWs synthesized at heating duration of 40 and 60 minutes. SiCNWs produced by heating at 40 and 60 minutes have high thermal stability with weight loss lower than 6%. It was found that SiC nanowhiskers (SiCNWs) were formed when EG was used as the starting material, while SiC nanoparticles (SiCNPs) were formed when FG was used. β-SiC appeared as the only phase in the x-ray diffraction pattern for SiCNMs formed by FG and EG. FESEM confirmed that no trace of graphite or silica was present in both SiCNWs and SiCNPs. Meanwhile, photoluminescence spectra show the presence of β-SiC peak at 440 nm and associated with band gap of 2.8 eV for both SiCNWs and SiCNPs. Absorption bands of Si-C bond were detected at 803.4 cm-1 for SiCNPs and 802.5 cm-1 for SiCNWs in the FTIR spectra. SiCNWs and SiCNPs have high thermal stability with weight loss less than 6 %. In conclusion, SiCNWs and SiCNPs have been successfully synthesized through the microwave heating of a mixture of silica/EG and silica/FG in an argon atmosphere.

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