Mathematics
Nanorods
100%
Optical Properties
84%
Thin Films
66%
Enhancement
62%
Structural Properties
54%
Oxygen
12%
Hexagon
10%
Photoluminescence
9%
Zinc Oxide
8%
Exciton
8%
Nitrate
8%
X-ray Diffraction
7%
Vacancy
7%
Reflectance
7%
Annealing
6%
Bimodal
6%
Imaging
5%
Absorption
5%
Crystal
5%
Conditioning
5%
Increment
4%
Defects
4%
Scattering
4%
Energy
3%
Demonstrate
2%
Engineering & Materials Science
Nanorods
79%
Optical properties
66%
Structural properties
57%
Thin films
50%
Excitons
15%
Photoluminescence
14%
Oxygen vacancies
13%
Crystal orientation
12%
Nitrates
11%
Molar ratio
10%
Zinc
9%
Crystalline materials
9%
Annealing
8%
X ray diffraction
8%
Scattering
8%
Oxygen
7%
Scanning electron microscopy
7%
Imaging techniques
6%
Substrates
6%
Defects
6%
Temperature
3%
Physics & Astronomy
nanorods
52%
optical properties
34%
augmentation
32%
thin films
27%
oxygen
5%
conditioning
5%
nitrates
5%
blue shift
5%
baths
4%
zinc
4%
excitons
3%
photoluminescence
3%
reflectance
3%
scanning electron microscopy
3%
annealing
2%
defects
2%
diffraction
2%
scattering
2%
crystals
2%
x rays
2%
temperature
1%
energy
1%
Chemical Compounds
Nanorod
45%
Optical Property
38%
Hexagonal Space Group
14%
Crystal Vacancy
12%
Crystal Orientation
11%
Emission Peak
9%
Exciton
9%
Dioxygen
8%
Dielectric Material
7%
Annealing
7%
Photoluminescence
6%
Nitrate
6%
Blue
6%
Time
6%
X-Ray Diffraction
4%
Energy
4%
Surface
2%