Financial support from the Ministry of Economic Affairs in Taiwan under Contract No.(93-EC-17-A-99-R6-0450) n the present work, we developed three novel methods for synthesizing composite nanofibers, including (1) self-assembly monolayer (SAM) surface treatment, (2) secondary template synthesis, and (3) plasma sputtering-based method. SAM surface treatment involves the following processing; acid surface treatment, ionic exchange, and heat treatment, then various nanoparticles with an average diameter of 5 nm such as SNO2, NiO, and RuO2, were well dispersed onto nanotubes surface through a interaction between oxide functional groups and metal ions. In the second method, the first type of precursor can be impregnated with alumina anodic oxide (AAO) template having a well-ordered nanochannels array, and the prepared tubular array is employed as the ”secondary template” after solidify treatment. Then the second-type component is filled with the secondary template, thus, forming the desired tow-components composite nanofibers. Using the plasma sputtering, the nanosized metal can be deposited silt in the open-tipped carbon nanofibers. After heat treatment, the composite nanofibers array can be fabricated. Based on the syntheses mentioned above, the composites nanofibers can applied to different promising fields such as highly-sensitively gas sensors, energy-storage materials, photo devices, and so on.