Computational Analysis for Morphological Evolution in Pyrolysis for Micro/Nanofabrication

Citation data:

Journal of Nanomaterials, ISSN: 1687-4110, Vol: 2015, Page: 1-6

Publication Year:
2015
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Repository URL:
http://scholarworks.unist.ac.kr/handle/201301/17863
DOI:
10.1155/2015/931429
Author(s):
Yang, Myeongseok; Lee, Wooju; Shin, Heungjoo; Kim, Dongchoul
Publisher(s):
Hindawi Limited; Journal of Nanomaterials; HINDAWI PUBLISHING CORPORATION
Tags:
Materials Science; KINETIC-MODELS; CELLULOSE; CARBONIZATION; FABRICATION; BIOMASS; MEMS
article description
Pyrolysis is recently proposed as an efficient fabrication technique of micro/nanoscale carbon structures. In order to understand the morphological evolution in pyrolysis and design the final shape of carbon structure, this study proposes a comprehensive model that incorporates the essential mechanisms of pyrolysis based on the phase field framework. Computational analysis with the developed model provides information about the effect of interface energy and kinetic rate on the morphological evolution in pyrolysis.