A facile method was succcssfidly developed to prepare a "pine needle-like" nanocompositc of carbon nanotubcs/polylhiophenc(CNTs/PTh) in ethanol with the assistance of supercritical CO2(SC CO2). The experiment co...A facile method was succcssfidly developed to prepare a "pine needle-like" nanocompositc of carbon nanotubcs/polylhiophenc(CNTs/PTh) in ethanol with the assistance of supercritical CO2(SC CO2). The experiment conditions such as mass ratio of thiophene monomer to carbon nanotubes, reaction temperature, and reaction time wcrc optimized, and the morphology and thickness of PTh layers on CNTs were hence effectively controlled. The results of Fourier translbrm infrared(FTIR) spectra, X-ray photoelectron spectra(XPS) and Raman spectra indicate the π-π interactions between PTh and CNT. A possible formation mechanism about the unique microstructure was suggested by virtue of the morphological evolution of the nanocomposite. As a facile, environment benign, and adjustable method, the proposed method holds great potential in the preparation of functional hybrid nanocomposites with the help of SC CO2, which will be promising in the tields of nanofabrication and electrochemical device preparation.展开更多
基金Supported by the National Natural Science Foundation of China(Nos.51173170, 50955010, 20974102), the Innovation Talents Award of Henan Province, China(No. 114200510019) and the Program for New Century Excellent Talents(NCET) in University of China(No.NCET-08-0667).
文摘A facile method was succcssfidly developed to prepare a "pine needle-like" nanocompositc of carbon nanotubcs/polylhiophenc(CNTs/PTh) in ethanol with the assistance of supercritical CO2(SC CO2). The experiment conditions such as mass ratio of thiophene monomer to carbon nanotubes, reaction temperature, and reaction time wcrc optimized, and the morphology and thickness of PTh layers on CNTs were hence effectively controlled. The results of Fourier translbrm infrared(FTIR) spectra, X-ray photoelectron spectra(XPS) and Raman spectra indicate the π-π interactions between PTh and CNT. A possible formation mechanism about the unique microstructure was suggested by virtue of the morphological evolution of the nanocomposite. As a facile, environment benign, and adjustable method, the proposed method holds great potential in the preparation of functional hybrid nanocomposites with the help of SC CO2, which will be promising in the tields of nanofabrication and electrochemical device preparation.
