We report here measurements of the thermoelectric power and longitudinal ma
gneto-Seebeck coefficient of 200 nm diameter single-crystal bismuth nanowir
es. Nanowires of pure Bi and of n-type-doped Bi (with Te at about 5 x 10(18
) cm(-3)) were measured. The wires are imbedded in porous anodic alumina. T
he data are taken on arrays of wires connected in parallel, at temperatures
from 8 to 390 K, and, between 10 and 80 K, in magnetic fields from 0 to 5
Tesla. It has been theoretically calculated that bismuth nanowires should h
ave a strongly increased thermoelectric figure of merit over bulk Bi, when
the diameter is decreased below about 10 nm. The nanowires in this study we
re selected because they are easier to prepare and handle. The temperature-
dependent thermopower data are consistent with the partial electron and hol
e thermopower values calculated using the carrier Fermi energies obtained f
rom Shubnikov-de Haas oscillations on the same samples. [S0163-1829(99)0191
9-0].