Keyphrases
1,2,4-triazole
20%
Absorption Properties
18%
Alkynyl Complexes
24%
Alq3
20%
Anthracene
26%
Anthracene Derivatives
26%
Aqueous Solution
11%
Blue Dopant
13%
Blue Lasing
12%
Blue-emitting
12%
Carbazole-based
12%
Current Efficiency
11%
Cyanine
16%
Deep Blue
11%
Device-independent
20%
Difluoro
11%
Dinuclear
12%
Diphenyl
22%
Donor-acceptor
13%
Electrochemical Properties
11%
Electron Holes
25%
Electron Transport
12%
Electron Transport Layer
13%
Electron-rich
12%
Electrophosphorescence
28%
Energy Transfer
11%
Ethylene
12%
Eu3+
16%
Expanded Porphyrins
16%
Fluorene
23%
Fluorescent Chemodosimeter
16%
Fluorophore
11%
Heterobimetallic
12%
Hexanuclear Complex
12%
High Efficiency
100%
High Thermal Stability
17%
Highly Stable
20%
Hole Transport
46%
Hole Transport Layer
12%
Iridium Complex
11%
Lanthanide Complexes
24%
Lanthanide Ions
17%
Lanthanides
17%
Lasing
19%
Light-emitting Diodes
16%
Long-term Emissions
11%
Luminescence
52%
Luminescence Properties
23%
Multiphoton
15%
Naphthyl
26%
Near-infrared
31%
Near-infrared Fluorescent Dyes
16%
Nonlinear Optical Properties
41%
Oligofluorene
36%
Optical Limiting
13%
Optical Power Limiting
11%
Organic Light-emitting Diodes
63%
P-type Dopant
19%
P-type Doping
11%
Phenyl
22%
Phosphorescence
11%
Phosphorescent Organic Light-emitting Diodes (PhOLEDs)
12%
Photodynamic
12%
Photoluminescence
15%
Photon-induced
26%
Photophysical Characterization
13%
Photophysical Properties
43%
Phthalocyanine
19%
Platinum(II)
20%
Porphyrin
35%
Porphyrinates
14%
Quantum Yield
13%
Room Temperature
24%
Schiff Base Complexes
24%
Schiff Base Ligand
16%
Singlet Oxygen Quantum Yield
11%
Sky Blue
33%
Structure-property Relationships
33%
Terpyridine Complex
16%
TETRA
12%
Tetranuclear
14%
Therapeutic Agents
12%
Thermally Stable
13%
Three-photon
16%
Three-photon Absorption
13%
Transport Properties
11%
Trinuclear
15%
Triplet
10%
Tris
18%
Tris(8-hydroxyquinolinato)aluminum
10%
Truxene
24%
Two-photon
57%
Two-photon Absorption
39%
Two-photon Absorption Cross-section
38%
UV-VIS Spectroscopy
14%
White Light
22%
White Organic Light-emitting Diodes (WOLEDs)
28%
X-ray Crystallography
11%
Yb3+
14%
Ytterbium
16%
Chemistry
1,2,4-Triazole
22%
Absorption Cross-Section
47%
Absorption Spectra
5%
Acetylide
8%
Ambient Reaction Temperature
16%
Anthracene
20%
Aqueous Solution
12%
Association Constant
8%
Benzene
16%
Benzidine
11%
Blue
60%
Carbazole
12%
Cesium
8%
Crystal Structure
31%
Current Density
8%
Current Efficiency
8%
Decomposition Temperature
7%
Dendrimer
8%
dimer
8%
DNA
8%
Donor
10%
Doping Material
28%
DTP
8%
Electroluminescence
5%
Electron Donor
8%
Electron Transport
11%
electronics
14%
Energy Transfer
22%
Ethylene
14%
Europium
8%
Exciton
13%
Expanded Porphyrin
16%
Fluorene
16%
Fluorescent Dye
12%
formation
9%
Halide
7%
Heterodimer
8%
Highest Occupied Molecular Orbital
8%
Hole (Electron)
16%
Hole Transport
19%
Imine
43%
Indene
8%
Intramolecular Energy Transfer
8%
Intrathoracic
11%
Iodine Ion
8%
Iridium
16%
Lanthanoid Atom
43%
Lowest Unoccupied Molecular Orbital
5%
Luminiscence Type
42%
Magnetic Field
5%
Magnetic Field Effect
8%
Main Group Element
8%
Metal Ion
6%
Metallocene
8%
Nanocrystalline Material
8%
Naphthalene
25%
Nonlinear Optical Property
41%
Oligofluorene
37%
Oligomer
19%
Optical Limiting
8%
Optoelectronics
8%
Organic Solar Cells
8%
Oxadiazole
8%
Palladium
8%
Photocurrent
8%
Photoexcitation
9%
Photoluminescence
35%
Photovoltage
8%
Phthalazine
8%
Phthalocyanine
13%
Pivalate
8%
Porphyrin
52%
Quantum Dot
8%
Quantum Yield
18%
Red
24%
Ruthenium
8%
Salen
8%
Sensitization
16%
Silver
8%
Single-Crystal X-Ray Crystallography
6%
stability
6%
Sublimation Point
8%
Substituent Effect
8%
Suzuki Reaction
9%
Sweet orange
8%
Terpyridines
16%
Thermal Stability
17%
Thermogravimetric Analysis
6%
Transition Metal
24%
Triplet State
8%
Tris
15%
Two-Photon Absorption
67%
UV/VIS Spectroscopy
18%
X-Ray Crystallography
10%
Ytterbium
18%