Abstract
The authors constructed the finite cluster model of bamboolike carbon nitride nanotubes taking the C9N5H3 as an example. As desired, the C9N5H3 bamboolike nanotubes were prepared in a facile solvent-free system. Both x-ray photoelectron microscopy and elemental analysis give its formula of C9N5H3, while the UV-vis and Fourier transform infrared results agree well with the theoretical predictions. Due to the existence of pore structure in this carbon nitride tube wall, the lithium battery experimental results exhibit a much higher irreversible and reversible capacity than that of the theoretical capacity of graphite (372mAhg−1).
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