INIS
quantum dots
100%
copper
83%
electrochemistry
80%
iodine complexes
80%
performance
79%
ligands
68%
solar cells
68%
hydrogen 1
60%
dimers
60%
interactions
54%
nmr
51%
absorption
50%
dimerization
46%
synthesis
45%
charge carriers
43%
tungsten oxides
40%
x radiation
38%
efficiency
38%
stability
37%
charges
35%
solutions
34%
excitation
31%
photochemistry
30%
irradiation
30%
crystal structure
30%
emission
29%
solids
29%
titanium oxides
28%
values
28%
metals
27%
oxygen
26%
energy
25%
resolution
25%
devices
23%
photoanodes
23%
oxides
23%
size
22%
layers
21%
concentration
20%
propane
20%
cadmium sulfides
20%
agar
20%
chemistry
20%
peptides
20%
viability
20%
isoniazid
20%
phenanthrolines
20%
zinc sulfides
20%
information
20%
errors
20%
Keyphrases
Electrochemical Properties
60%
Photovoltaic Performance
60%
CuInS2 Quantum Dots
46%
Quantum Dots
45%
Dimerization
40%
Non-covalent
40%
Self-association
40%
Spectroscopic Properties
40%
PPh3
36%
Solar Cell
34%
Helicates
30%
Quantum Dot Sensitized Solar Cell (QDSSC)
27%
Band Gap
26%
Light Absorption
26%
Rutile
24%
1H nuclear Magnetic Resonance (1H NMR)
23%
Power Conversion Efficiency
22%
Photophysical Properties
20%
Charge Carrier Separation
20%
Phen
20%
1,10-Phenanthroline
20%
Coordinating Solvents
20%
Oxides
20%
BiVO4 Photoanode
20%
Reticular Chemistry
20%
Photochemistry
20%
Materials Synthesis
20%
CdS Quantum Dot Sensitized Solar Cell
20%
Inconvenience
20%
Gel Polymer Electrolyte
20%
Trimer
20%
Racemization
20%
Regret
20%
Funding Acknowledgements
20%
Funding Information
20%
Optical Transitions
20%
State Interactions
20%
AgInS2-ZnS
20%
Spectroscopic Evidence
20%
Copper(I)
20%
Tetrahedral Complexes
20%
Supramolecular Interactions
20%
X-ray Crystallography
20%
Apologizing
20%
Structural Diversity
20%
Size Dependence
20%
Sub-bandgap Excitation
20%
Copper-deficient
20%
Photoanode
20%
Binuclear
20%