Chemical Compounds
Porphyrin
96%
Electron Transfer
35%
Charge Separation
22%
Tetrathiafulvalene
21%
Phosphorus(.)
19%
Fullerene
14%
Electron Spin
14%
Triplet State
14%
Photochemical Reaction
14%
Heterodimer
12%
EPR Spectroscopy
12%
Spectroscopy
11%
Electron Particle
11%
Spin Polarization
10%
Hypervalence
10%
Excited Triplet State
9%
Ligand
9%
Donor
7%
Energy Transfer
7%
Ground State
7%
Photooxidation
7%
Fluorescence
7%
Terpyridines
7%
Electron Donor
7%
Excited State
5%
Iron(3+)
5%
Polarization
5%
Electronic Property
5%
Copper(2+)
5%
Excited Singlet State
5%
Electron Acceptor
5%
Photoinduced Energy Transfer
5%
Chemistry
5%
Charge Transfer
5%
Density Functional Theory
5%
Pyridine
5%
Physics & Astronomy
porphyrins
100%
electron transfer
36%
aluminum
20%
polarization (charge separation)
19%
atomic energy levels
17%
fullerenes
14%
pyridines
12%
phosphorus
11%
electron spin
10%
electrons
9%
ligands
9%
polarization
9%
photooxidation
9%
life (durability)
8%
spectroscopy
8%
excitation
8%
electron paramagnetic resonance
7%
synthesis
7%
naphthalene
6%
stabilization
5%
zinc
5%
ferrocenes
5%
phenothiazines
5%
charge transfer
5%
Engineering & Materials Science
Porphyrins
75%
Fullerenes
35%
Electrons
32%
Aluminum
21%
Oxidation-Reduction
12%
Paramagnetic resonance
12%
Ligands
11%
Phosphorus
10%
Dimers
8%
Ions
8%
Excited states
8%
Energy transfer
8%
Artificial photosynthesis
7%
Photochemical reactions
6%
Pyridine
6%
