傅祖怡Tsu-Yi Fu洪萱臻Syuan-Jhen Hong2019-09-052010-7-212019-09-052010http://etds.lib.ntnu.edu.tw/cgi-bin/gs32/gsweb.cgi?o=dstdcdr&s=id=%22GN0697410327%22.&%22.id.&http://rportal.lib.ntnu.edu.tw:80/handle/20.500.12235/102734利用場離子顯微鏡(FIM)觀測蒸鍍鐵或鎳原子在鉑針上，加熱退火後的皺化行為。鐵鉑合金加熱退火至800～900K，有兩種金字塔稜線產生。一種為擴張的{100}、{110}及{111}切面在{351}切面的位置形成，另一種則是由{110}、{111}及{311}切面擴張，原子堆積在{231}切面形成金字塔稜線。而鎳鉑合金加熱退火至500～600K，由{110}、{111}及{311}切面擴張，在{231}的位置長成金字塔，可由FIM觀察其稜線。Absorbate-induced thermal faceting is observed by field ion microscopy. Two adsorption systems are investigated: Fe/Pt and Ni/Pt. Pyramids of Fe/Pt tip grow upon {351} consist of {100}、{110}and{111}, while the pyramids grow upon {231} are comprised of {110}、{111}and {311} when anneal the tip to 800～900K. Accordingly, pyramids of Ni/Pt grow upon {231} are composed of {110}、{111}and {311} when anneal to 500～600K.皺化鉑針鐵鎳facetingPt tipFeNi