A scanning probe microscopy based measurement tool for thermoelectric studies of nanostructures

Author

Miner, Andrew C. ; Chapp, Michael ; Li, Deyu ; Majumdar, Arun

Author_Institution

Nanocoolers Inc., Austin, TX, USA

fYear

2002

fDate

25-29 Aug. 2002

Firstpage

325

Lastpage

328

Abstract

A scanning probe based tool for thermal, electrical, and thermoelectric measurements is presented. This work combines aspects of scanning thermal microscopy (SThM) and scanning spreading resistance microscopy (SRM) into a single tool for measurement. The measurement tool presented here allows simultaneous electrical and thermal measurement of samples using a probe tip of radius on the order of 50 nm. This tool integrates sensors allowing for heat flux measurement and control, enabling a variety of thermal, electrical and thermoelectric measurements. Seebeck coefficient measurements of a thin film are presented showing the potential for quantitative measurement with spatial resolution on the order of 150 nm.

Keywords

Seebeck effect; electric variables measurement; nanostructured materials; scanning probe microscopy; 50 nm; SRM; SThM; Seebeck coefficient; heat flux measurement; nanostructures; scanning probe microscopy; scanning spreading resistance microscopy; Electric resistance; Electric variables measurement; Electrical resistance measurement; Nanostructures; Resistance heating; Scanning probe microscopy; Temperature control; Thermal resistance; Thermal sensors; Thermoelectricity;

fLanguage

English

Publisher

ieee

Conference_Titel

Thermoelectrics, 2002. Proceedings ICT '02. Twenty-First International Conference on

Print_ISBN

0-7803-7683-8

Type

conf

DOI

10.1109/ICT.2002.1190331

Filename

1190331