Title :
Thermoelectric transport properties of single bismuth nanowires
Author :
Cronin, Stephen B. ; Lin, Y.M. ; Black, M.R. ; Rabin, O. ; Dresselhaus, M.S.
Author_Institution :
Dept. of Phys., MIT, Cambridge, MA, USA
Abstract :
We present a novel technique for measuring the power factor (Seebeck coefficient and resistivity) of a single isolated Bi nanowire. Electron beam lithography is used to pattern electrodes on top of a 40 nm diameter Bi nanowire along with a microscopic heater and thermocouples. Running current through the heater generates a temperature gradient of 0.5 K over a distance of 10 μm across the nanowire. Measurement of the Seebeck voltage of the nanowires was not possible due to the highly resistive and non-ohmic contacts. The non-linearity in the i(V) characteristics of the electrical contacts are understood by detailed modeling of the tunneling mechanism made through the electrical contacts. The prospect of using the poor contacts to perform tunneling spectroscopy of the electronic density of states of the nanowires is evaluated using this model.
Keywords :
Seebeck effect; bismuth; electrical resistivity; electronic density of states; nanowires; tunnelling; Bi; Seebeck coefficient; electrical contacts; electron beam lithography; electronic density of states; i(V) characteristics; power factor; resistivity; single bismuth nanowires; temperature gradient; thermoelectric transport properties; tunneling mechanism; Bismuth; Conductivity; Contacts; Electron beams; Lithography; Nanowires; Power measurement; Reactive power; Thermoelectricity; Tunneling;
Conference_Titel :
Thermoelectrics, 2002. Proceedings ICT '02. Twenty-First International Conference on
Print_ISBN :
0-7803-7683-8
DOI :
10.1109/ICT.2002.1190310
