Engineering & Materials Science
Ligands
100%
Luminescence
71%
Porphyrins
66%
Infrared radiation
65%
Crystal structure
55%
Rare earth elements
48%
X rays
39%
Ions
35%
Pyridine
34%
Photoluminescence
25%
Hybrid materials
24%
X ray diffraction
24%
Excited states
23%
Ytterbium
23%
Doping (additives)
22%
Dye-sensitized solar cells
22%
Monomers
21%
Ruthenium
20%
Self assembly
19%
Dyes
18%
Negative ions
18%
Cyclohexane
17%
Porous silicon
17%
Quantum yield
16%
X ray crystallography
16%
Toluene
16%
Ethylene
15%
Molecules
14%
Electrons
14%
Energy transfer
13%
Organic solar cells
13%
Photodynamic therapy
13%
Temperature
12%
Physical properties
12%
Photons
12%
Color
11%
Imaging techniques
11%
Erbium
11%
Carbon Quantum Dots
10%
Polymethyl methacrylates
10%
Derivatives
10%
Conversion efficiency
10%
Dimers
10%
Cells
10%
Photosensitizers
10%
Nuclear magnetic resonance
10%
Single crystals
9%
Copolymerization
9%
Hexane
9%
Laser excitation
9%
Chemical Compounds
Luminiscence Type
97%
Schiff Base
65%
Porphyrin
55%
Lanthanoid Atom
52%
Ligand
50%
Crystal Structure
33%
Photoluminescence
28%
Ytterbium
26%
cyclohexane-1,2-diamine
25%
Ion
23%
X-Ray Crystallography
23%
Reaction Yield
23%
Quantum Yield
19%
Sensitization
16%
Excited State
16%
Energy Transfer
15%
Two-Photon Absorption
15%
Monomer
14%
Dye
14%
Methyl Methacrylate
13%
Doped Compound
13%
X-Ray Diffraction Method
13%
Pyridine
13%
X-Ray
13%
Donor
12%
Ambient Reaction Temperature
12%
Norbornene
11%
Ring Opening Metathesis Polymerisation
11%
Erbium
11%
Dioxygen
11%
Porosity
10%
Absorption Cross-Section
10%
Water Soluble
9%
Toluene
9%
Red
9%
Metal Ion
8%
White
8%
Copolymerization
8%
Energy
8%
Imino Group
8%
Acetylide
8%
Molecule
8%
Tetraphenylporphyrin
7%
Thermal Stability
7%
Anion
7%
Probe
7%
Tris
7%
Subcellular Localization
7%
Ethylenediamine
7%
Terpolymerization
7%
Physics & Astronomy
ligands
67%
imines
57%
synthesis
44%
luminescence
41%
diamines
38%
crystal structure
30%
pyridines
23%
x rays
20%
monomers
15%
porphyrins
15%
interactions
15%
reactivity
15%
ruthenium
14%
ethylene
13%
anions
13%
solid state
12%
porous silicon
12%
imidazoles
12%
ions
12%
cyclohexane
12%
phenyls
12%
self assembly
12%
physical properties
11%
photoluminescence
11%
life (durability)
11%
characterization
11%
diffraction
11%
ethylenediamine
10%
color
10%
toluene
9%
excitation
9%
copolymerization
9%
energy transfer
9%
preparation
9%
crystallography
8%
polymethyl methacrylate
8%
metathesis
8%
tetrahydrofuran
7%
purity
7%
nuclear magnetic resonance
6%
ambient temperature
6%
room temperature
6%
thermal stability
6%
zinc
6%
molecular structure
5%
products
5%
rings
5%
acids
5%
metals
5%
