Engineering & Materials Science
Thin films
100%
Solar cells
61%
Thin film solar cells
54%
Substrates
51%
Surface plasmons
51%
Plasmonics
50%
Photoluminescence
50%
Monolayers
46%
Heterojunctions
40%
Light absorption
39%
Nanowires
39%
Electric properties
38%
Single crystals
38%
Energy gap
38%
Photocurrents
36%
Pulsed laser deposition
36%
Nanodots
32%
Temperature
32%
Nanostructures
30%
Transition metals
29%
Electrodes
29%
Thermionic emission
29%
Optical properties
28%
Conversion efficiency
26%
Nanorods
26%
Optoelectronic devices
25%
Excitons
24%
Organic solar cells
24%
Nanopillars
24%
Fabrication
23%
Electrons
23%
Transport properties
22%
Lithography
22%
Optical conductivity
22%
Electron emission
21%
Gold nanoparticles
20%
Light emission
19%
Plasma enhanced chemical vapor deposition
19%
Silicon
19%
Plasmons
19%
Microscopic examination
18%
Diodes
18%
Photodetectors
18%
Graphene
18%
Wavelength
18%
Metals
17%
Electric potential
17%
Semiconductor materials
16%
Current voltage characteristics
16%
Polarization
16%
Chemical Compounds
Solar Cell
77%
Schottky Contact
58%
Liquid Film
41%
Thermionic Emission
34%
Electrical Property
32%
Surface
31%
Nanocone
30%
Photoluminescence
28%
Voltage
26%
Photovoltage
25%
Band Gap
24%
Kelvin Probe Force Microscopy
24%
Pulsed Laser Deposition
24%
Photocurrent
24%
Nanowire
23%
Absorptivity
23%
Surface Plasmon
23%
Monolayer
23%
Single Crystalline Solid
22%
Transport Property
22%
Optoelectronics
20%
Semiconductor
18%
Optical Property
18%
Simulation
18%
Tunneling
18%
Behavior as Electrode
18%
Polariton
18%
Work Function
17%
Resistance
17%
Flake Like Crystal
16%
Nanopillar
16%
Surface Potential
16%
Nanomaterial
16%
Optical Conductivity
16%
Conductive Atomic Force Microscopy
15%
Charge Ordering
15%
Nanorod
15%
Schottky Barrier
15%
Field Effect
15%
Quinonoid Zwitterion
14%
Molecular Beam Epitaxy
14%
Resonance
14%
Optical Limiting
14%
Pyroelectricity
13%
Plasma
13%
Energy
13%
Exciton
12%
Wavelength
12%
Deposition Technique
12%
Multilayer
11%
Physics & Astronomy
thin films
83%
solar cells
67%
electrical properties
41%
nanowires
33%
electric contacts
32%
electric potential
28%
pulsed laser deposition
28%
metals
26%
single crystals
26%
plasmons
26%
transport properties
24%
photoluminescence
23%
Schottky diodes
23%
lithography
23%
optical properties
21%
thermionic emission
19%
electrodes
18%
microscopy
18%
probes
16%
optical absorption
16%
insulators
15%
molecular beam epitaxy
15%
oxides
15%
electron emission
15%
conduction
15%
nanorods
15%
oxidation
14%
defects
14%
electric fields
14%
magnetic force microscopy
14%
temperature
14%
inhomogeneity
13%
laser beams
13%
sapphire
13%
photovoltages
12%
masks
12%
heterojunctions
12%
silicon
11%
low resistance
11%
oxygen
11%
magnetic properties
11%
augmentation
11%
electrons
11%
oxygen plasma
10%
characterization
10%
gratings
10%
fabrication
10%
wafers
9%
reflectance
9%
catalysts
9%
