Effect of Carbon Nanotubes on Transport Properties of MgB$_{2}$

Carbon nanotubes (CNT) and magnesium diboride (MgB$_{2})$ are two fascinating materials; with CNT exhibiting unique quantum electrical properties due to its 1-D structure and MgB$_{2}$ being a superconducting with transition temperature (T$_{c})$ at $\sim $40 K. We report preliminary results on the effect of carbon nanotubes on the temperature dependent (300K to 4K) thermoelectric power (TEP) and resistivity of MgB$_{2}$. The normalized resistance (R-R$_{300})$/R$_{300}$ shows very little dependence on the sample composition; however, the absolute resistance increases with increasing CNT concentration. At high CNT composition, the TEP mimic the characteristic TEP of CNT. However at low CNT composition, we see an upturn at about 30K.