1000020 h t t p : / / w w w. k n s i. c o m. t w 248 30 (02)2299-9006 (02)2299-9110. 100 KANG SI 第一期 vol.1 P.2 2010 P.6 1
2010 2010 10 5 Andre Geim Konstantin Novoselov graphene 6 36 Moore's Law 18 1970 2015miniaturisation 4 University of Manchester 2004 10 2040 2
Scotch methodscotch Scotch 1 9 5 8 51 Sochi1987 2010 2010 2000 Ig Nobel Prizes 1974 Nizhny Tagil2004 2010 3
sp 2 1 300 0.335nm20 20 55 1m 100nm 20000N 30010 2.3 4
30 2.3 DNA Princeton University 2 10 IBM Institute of Physics Marshall Stoneham 5
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30010 2.3 1. A73K B C D E sp 2 D A 300K 73K B C 30010 E sp 2 2. 20 55 1m 0.335nm 1m100nm A 0.002 B 0.02 C 0.2 D 2 E 20 D 0.335nm 55 100nm 55 (N 100 ( nm) ) 16418(N) 0.335 ( nm) 7
3. A B C D E D A B C D E http://static.nobelprize.org/nobel_prizes/physics/laureates/2010/sciback_phy_10.pdf http://connect.in.com/geim/photos-andre-geim-0312507e9af9b1ac.html http://news.xinhuanet.com/tech/2009-03/02/content_10926914_2.htm http://sciencewatch.com/ana/st/graphene/09febstgranovo/ http://www.electroiq.com/index/display/article-display.articles.small-times.nanotechmems.materials. graphene.2009.06.ga-tech-graphene-could-replace-cu-for-ic-interconnects.qp129867.dcmp=rss.page=1.html http://lookingovertheshouldersofgiants.blogspot.com/2010/10/graphene.html http://static.nobelprize.org/nobel_prizes/physics/laureates/2010/info_publ_phy_10_en.pdf 1. 2006 2. 2006 3. 2007 4. 2009 5. http://blog.udn.com/epig 8