@inproceedings{85528a332bba4f5fa78b679b5487545c,
title = "Reduced thermal conductivity in silicon thin-films via vacancies",
abstract = "An experimental method is defined that reduces the thermal conductivity in Si films by ~90% compared to control samples, while keeping the thermoelectric power factor almost unchanged. This is done by creating vacancy-rich films via high-energy self-implantation of Si, followed by rapid-thermal annealing. TCAD simulations suggest that this approach is scalable for application in thin-film thermoelectric generators, as an alternative to more expensive and less Earth-abundant materials such as bismuth telluride. This approach to Si thermoelectrics could be straight-forward for scale-up to thin-film device dimensions, something that is a major challenge for other methods used for Si thermal conductivity reduction.",
keywords = "Silicon, Thermal conductivity, Thermoelectric, Thin-film, Vacancy",
author = "Wight, {Neil M.} and Bennett, {Nick S.}",
note = "{\textcopyright} 2016 Trans Tech Publications Ltd. All Rights Reserved; 16th International Conference on Gettering and Defect Engineering in Semiconductor Technology, GADEST 2015 ; Conference date: 20-09-2015 Through 25-09-2015",
year = "2015",
month = oct,
day = "30",
doi = "10.4028/www.scientific.net/SSP.242.344",
language = "English",
isbn = "9783038356080",
series = "Solid State Phenomena",
publisher = "Trans Tech Publications Ltd",
pages = "344--349",
editor = "Peter Pichler and Peter Pichler",
booktitle = "Gettering and Defect Engineering in Semiconductor Technology XVI",
address = "Switzerland",
}