Keyphrases
8-17 DNAzyme
100%
Absorption Bands
40%
Absorption Maxima
36%
Aminolysis
48%
Bi-exponential
36%
Catalytic DNA
28%
Catalytic Mechanism
48%
Chloride
25%
Cyclic Voltammetry
36%
Cyclodextrin
73%
Decay Lifetime
36%
DFT Calculations
36%
Diaryl
27%
Dichloromethane
60%
DNA Catalysis
36%
DNAzyme
73%
Electrochemical Properties
36%
Emission Band
44%
Emission Quantum Yield
32%
Excited States
53%
Functional Studies
32%
General Acid
36%
General Acid-base Catalysis
28%
General Base
28%
Leaving Group
34%
Ligand Reduction
36%
Low Energy
28%
Luminescence
48%
Luminescent Properties
34%
Metal Ions
53%
Methyl
36%
Micellar Systems
34%
New Complexes
36%
Nitrophenyl
83%
Nucleofugality
48%
Nucleophile
39%
Phen
89%
Phenolysis
97%
Phenyl
40%
Photophysical Properties
83%
Reduction Method
36%
Rhenium Complexes
57%
Secondary Alicyclic
25%
Silsesquioxane
32%
Singlet Oxygen
36%
Solvent Polarity
30%
Spectroscopic Properties
61%
Surfactant
61%
Thiocarbonate
53%
UV-Vis Spectra
36%
Chemistry
1,10-phenanthroline
17%
Absorption Maxima
36%
Acid-Base Catalysis
36%
Alicyclics
42%
Aminolysis
48%
Aryl Group
12%
Base
18%
Catalytic DNA
44%
Cation
24%
Chemical Reactivity
24%
Cofactor
24%
Complexation
28%
Cyclic Voltammetry
36%
Cyclodextrin
48%
Density Functional Theory
66%
Deoxyribonucleic Acid
44%
Dichloromethane
53%
Dissociation Exponent
36%
Electrophilicity
12%
Excited State
61%
Ground State
24%
Guanine
24%
Hydrogen Bonding
24%
Ionic Strength
36%
Kd
24%
Liquid Film
32%
Luminescence Lifetime
12%
Luminiscence Type
97%
Macrocycle
24%
Macrocyclic Ligand
24%
Metal Ion
32%
Micelle
34%
Molecular Dynamics
12%
Monoatomic Monocation
12%
Nucleophile
48%
Optical Property
24%
Phenol
42%
Phenylenediamine
24%
Potassium Ion
24%
Quantum Yield
53%
Rate Constant
12%
Rhenium
66%
RNA
14%
Silsesquioxane
32%
Structure
57%
Surfactant
42%
Tetrahydrofuran
12%
Time-Dependent Density Functional Theory
17%
UV/VIS Spectroscopy
36%
Wavelength Maximum
24%