Engineering & Materials Science
Nanowires
100%
Zinc
37%
Scanning tunneling microscopy
29%
Electronic structure
29%
Electronic properties
26%
Electron microscopy
25%
Crystals
23%
Surface morphology
19%
Imaging techniques
18%
Gallium phosphide
17%
Semiconductor materials
16%
Superlattices
15%
Energy gap
15%
Surface structure
15%
Photoemission
14%
Nanodiamonds
14%
Spectroscopy
13%
Surface chemistry
13%
Crystal structure
12%
Epitaxial growth
11%
Oxides
11%
Hydrogels
11%
Copolymers
10%
Alloying
9%
Electric properties
9%
Hydrogen
8%
Geometry
8%
Reflection high energy electron diffraction
8%
Topological insulators
8%
Mirrors
8%
Electrons
8%
Synchrotrons
8%
Surface properties
8%
Proteins
7%
Membranes
7%
Derivatives
6%
Density functional theory
6%
Molecular beam epitaxy
6%
Epitaxial films
6%
Band structure
6%
Nanoparticles
6%
Carrier concentration
6%
Crystalline materials
5%
Valence bands
5%
Monolayers
5%
Conduction bands
5%
Cleaning
5%
Water
5%
Physics & Astronomy
nanowires
70%
zinc
29%
wurtzite
27%
oxides
24%
photoelectric emission
22%
stimulated emission
18%
depletion
14%
electronics
14%
cleaning
14%
indium arsenides
12%
metal oxide semiconductors
12%
membranes
12%
spectroscopy
12%
electron microscopy
12%
scanning tunneling microscopy
12%
electronic structure
11%
chemistry
10%
flat surfaces
10%
hafnium
10%
dioxides
9%
atomic layer epitaxy
8%
thin films
8%
surface properties
8%
chemical reactions
7%
cells
7%
alloying
7%
capacitors
7%
crystals
6%
proteins
6%
cultured cells
6%
interactions
6%
crystal structure
6%
quantum dots
6%
hydrogen
6%
electrical properties
6%
x rays
5%
geometry
5%
hollow
5%
Chemical Compounds
Nanowire
69%
Scanning Tunneling Microscopy
20%
Surface
20%
Semiconductor
17%
Electron Microscopy
14%
Electronic Property
14%
Oxide
11%
Electronic State
11%
Surface Structure
11%
Nanodiamond
10%
Band Gap
10%
Superlattice
10%
Hafnium Atom
10%
Atomic Layer Epitaxy
9%
Surface Chemistry
9%
Alloying
8%
Conductivity
8%
Spectroscopy
7%
Electrical Property
7%
Hydrogel
6%
Hydrogen
5%
Copolymer
5%