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Ts  d2X, Y1Axis?   Tt  d2X, Y2Axis?  }j  d2X, 1PaneLeftWallRightWallBaseSeriesSeriesLabel?   Ym  d2X,  X1Title?  EYo  d2X,  Y1Title?  EYp  d2X,  Y2Title?  FTl  d2X, Legend?  }Z    Title?  $ArialArial "]Z  %&'( 880d | $ Arial-ZcZ$ Arial-ZcZ  LB  %&'( 0d  $ Arial-ZcZ$ Arial-ZcZ  B           ^  ddư>   ?&  Mb@?   #       f  g    i2      -./g  0d    /06qfprint$u<7~7,, ,!$%,&)*,+-.sr                            ! " # $ % & ' ( ) * + , - . / 0 1 2 3 4 5 6 7 8 9 : ; < = > ? @ A B C D E F G H I J K L M N O P Q R S T U V W X Y Z [ \ ] ^ _ sults from scientists all over the world. YAll values are for Single Wall Carbon Nanotubes (SWNT's) unless otherwise stated. Equilibrium Structure"Average Diameter of SWNT's4Distance from opposite Carbon Atoms (Line 1)1Analogous Carbon Atom Separation (Line 2)0Parallel Carbon Bond Separation (Line 3)# Carbon Bond Length (Line 4)* C - C Tight Bonding Overlap Energy Group Symmetry (10, 10). Lattice: Bundles of Ropes of Nanotubes Lattice ConstantLattice Parameter: X X XDensity: X X XInterlayer Spacing: X X X q. Optical PropertiesFundamental Gap: X X X Electrical Transport !Conductance Quantization"Resistivity#Maximum Current Density $q. %Thermal Transport&Thermal Conductivity'Phonon Mean Free Path(Relaxation Time )q. *Elastic Behavior+Young's Modulus (SWNT),Young's Modulus (MWNT) -Maximum Tensile Strength .P /x 0x 1x 2x 3x 4x 5x 6x 7x 8x 9x :H ;H <H =H >H ?H @H AH BH CH DH EH FH GH HH IH JH KH LH MH NH OH PH QH RH SH TH UH VH WH XH YH ZH [H \H ]H ^H _H `H aH bH cH dH eH fH gH hH iH jH kH lH mH nH oH pH qH rH sH tH uH vH wH xH yH zH {H |H }H ~H H   H H           (10, 10) Armchair(17, 0) Zigzag(12, 6) Chiral (10, 10) Armchair(17, 0) Zigzag(12, 6) Chiral (n, n) Armchair(n, 0) Zigzag(2n, n) Chiral H  4For (n, m); n-m is divisible by 3 [Metallic]?For (n, m); n-m is not divisible by 3 [Semi-Conducting] P  ! " # $H % & ' ( )H * + , - .P /H 0H 1H 2H 3H 4H 5H 6H 7H 8H 9H :H ;H <H =H >H ?H @H AH BH CH DH EH FH GH HH IH JH KH LH MH NH OH PH QH RH SH TH UH VH WH XH YH ZH [H \H ]H ^H _H `H aH bH cH dH eH fH gH hH iH jH kH lH mH nH oH pH qH rH sH tH uH vH wH xH yH zH {H |H }H ~H H   H H H X X X X  X  X  X   X H X X X H X X X H X X X H H H   P  H !H "H #H $H %H &H 'H (H )H *H +H ,H -H .P /H 0H 1H 2H 3H 4H 5H 6H 7H 8H 9H :H ;H <H =H >H ?H @H AH BH CH DH EH FH GH HH IH JH KH LH MH NH OH PH QH RH SH TH UH VH WH XH YH ZH [H \H ]H ^H _H `H aH bH cH dH eH fH gH hH iH jH kH lH mH nH oH pH qH rH sH tH uH vH wH xH yH zH {H |H }H ~H H   x x 1.2 -1.4 nm2.83 2.456 2.45  1.42  ~ 2.5 eV  C5VH> 8  ZapfHumnst BT8 Triangular Lattice (2D)  17 16.78 16.52 16.52 1.33 g/cm3H>8   ZapfHumnst BT81.34 g/cm3H>8   ZapfHumnst BT81.40 g/cm3H>8   ZapfHumnst BT8 3.38 3.41 3.39 x   0 eV~ 0.5 eV `  !(12.9 k-ohm)-1"10-4 ohm-cmHl"f ZapfHumnst BT ZapfHumnst BT#1013 A/m2H#  ZapfHumnst BT8 ZapfHumnst BT8 ZapfHumnst BT8 $x %&~ 2000 W/m/K'~ 100 nm(~ 10-11 sHl(f  ZapfHumnst BT BT8 ZapfHumnst BT BT8 )x *+~ 1 TPa,1.28 TPa-~ 100 GPa .` /x 0x 1x 2x 3x 4x 5x 6x 7x 8x 9x :x ;x <x =x >x ?x @x Ax Bx Cx Dx Ex Fx Gx Hx Ix Jx Kx Lx Mx Nx Ox Px Qx Rx Sx Tx Ux Vx Wx Xx Yx Zx [x \x ]x ^x _x `x ax bx cx dx ex fx gx hx ix jx kx lx mx nx ox px qx rx sx tx ux vx wx xx yx zx {x |x }x ~x x   H H H [1] [1] [1] [1] [1,23] [23,24]  [2]  [2]  [2] H [3] [3] [3] H [3] [3] [3] H [3] [3] [3] H H H[13,19][13,19,23] H  H![4,5,19] "[2]#[5,12] $H %H&[6,15,16] '[15] ([15] )H *H+[3,7,8,9,12,13]  ,[8] -[18] .h /H 0H 1H 2H 3H 4H 5H 6H 7H 8H 9H :H ;H <H =H >H ?H @H AH BH CH DH EH FH GH HH IH JH KH LH MH NH OH PH QH RH SH TH UH VH WH XH YH ZH [H \H ]H ^H _H `H aH bH cH dH eH fH gH hH iH jH kH lH mH nH oH pH qH rH sH tH uH vH wH xH yH zH {H |H }H ~H Hoq dd$ Oh+'0 `lx Cor adamsth3roPigutoS adamsth32F@ށ@`WQuattro Pro for Windows 7 hGroup14Group1C:\WINDM j"j"K|