Page 222 - Science at the nanoscale
P. 222
16:22
June 9, 2009
Index
212
Gibbs-Thompson equation 99
depth of focus 162, 164
gradient force 191, 192
diffusion length 27
graphene
diffusion 101
208
diffusive transport 126
Hall conductance
124
dipole moment 69
Hall effect 124
dispersion force 72
Heisenberg uncertainty
DLVO theory 104
Heisenberg’s uncertainty
drug delivery 12
principle 35
heterostructure 123
effective electron mass 117
hexagonal close packing 79
Einstein 25
high resolution TEM 173
elastically scattered electrons
146
homogeneous nucleation
174, 175
Hooke’s law
electrical double layer 103
hybridised orbitals 68
166
electromagnetic lens
74
hydrogen bonding
electron affinity 68
hydrogen spectrum
electron microscopy 162, 163
49, 50, 52
hydrogen-like ATOMS
electron transport 122, 126
electronegative 69
induced dipole moment 71
endothermic 141
inelastically scattered electrons
110
energy bands
174, 176
energy distribution functions
infrared (IR) spectroscopy 23
112
injection method
141
enthalpy
insulators 110
entropy 141
integrated circuit 2
144
equilibrium constant
intermolecular interactions
exothermic 142
70
ionic bond
69
fabrication 2
Fermi energy 111, 113, 123
Landauer
125, 128
Fermi level 110, 184
laser nanofabrication
Fermi temperature 111
low dimensional nanostructures
Fermi velocity 111
131, 117
Fermi wavelength
low dimensional 109
Fermi-Dirac statistics 126 RPS: PSP0007 - Science-at-Nanoscale 21 148 51 195 130 64, index
110
Fermi-Dirac 112 macromolecules 85
fermions 113 magnification 172
Feynman 2 Max Planck’s theory 33
Maxwell-Boltzmann 112
field emission electron gun 166
mean free path 126
field emission guns 165
mechanical frequency 20
fractional quantum Hall effect
metal oxide nanostructures 134
124
metal selenide 132
fullerenes 5, 208
metal sulfide 132
gallium arsenide 123 micelles 105
Gaussian distribution 26 micro-electro-mechanical systems
giant magnetoresistance 14, 204 (MEMS) 20
Gibbs energy 141 microemulsion 105
Gibbs free energy 95 Mie regime 192
