期刊
NANOSCALE
卷 7, 期 37, 页码 15404-15412出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c5nr03274a
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资金
- US Department of Energy, Office of Basic Energy Sciences through S3TEC Energy Frontiers Research Center
- NSF IRES [1028071]
- ECR StG NanoTEC [240497]
- PHOMENTA project [MAT2011-27911]
- NanoHiTEC project [FP7-263306]
- CSIC for JAE Pre-Doctoral fellowship
- US Department of Energy, Office of Basic Energy Sciences through S3TEC Energy Frontiers Research Center
- NSF IRES [1028071]
- ECR StG NanoTEC [240497]
- PHOMENTA project [MAT2011-27911]
- NanoHiTEC project [FP7-263306]
- CSIC for JAE Pre-Doctoral fellowship
- Office Of The Director [1028071] Funding Source: National Science Foundation
This work discusses measurement of thermal conductivity (k) of films using a scanning hot probe method in the 3 omega mode and investigates the calibration of thermal contact parameters, specifically the thermal contact resistance (R-C(th) ) and thermal exchange radius (b) using reference samples with different thermal conductivities. R-C(th) and b were found to have constant values (with b = 2.8 +/- 0.3 mu m and R-C(th) = 44 927 +/- 7820 K W-1) for samples with thermal conductivity values ranging from 0.36 W K-1 m(-1) to 1.1 W K-1 m(-1). An independent strategy for the calibration of contact parameters was developed and validated for samples in this range of thermal conductivity, using a reference sample with a previously measured Seebeck coefficient and thermal conductivity. The results were found to agree with the calibration performed using multiple samples of known thermal conductivity between 0.36 and 1.1 W K-1 m(-1). However, for samples in the range between 16.2 W K-1 m(-1) and 53.7 W K-1 m(-1), calibration experiments showed the contact parameters to have considerably different values: R-C(th) = 40 191 +/- 1532 K W-1 and b = 428 +/- 24 nm. Finally, this work demonstrates that using these calibration procedures, measurements of both highly conductive and thermally insulating films on substrates can be performed, as the measured values obtained were within 1-20% (for low k) and 5-31% (for high k) of independent measurements and/or literature reports. Thermal conductivity results are presented for a SiGe film on a glass substrate, Te film on a glass substrate, polymer films (doped with Fe nano-particles and undoped) on a glass substrate, and Au film on a Si substrate.
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