Engineering & Materials Science
Fullerenes
100%
Polyaniline
94%
Toluene
58%
Polymer solar cells
56%
Tuning
52%
Electrons
48%
Naphthalene
44%
Paramagnetic resonance
43%
Negative ions
43%
Derivatives
42%
Optical properties
39%
Fluorescence
36%
Medical applications
36%
Surface active agents
35%
Solar cells
33%
Protonation
29%
Volume fraction
28%
Catalysts
27%
Water
26%
Photoluminescence
26%
Dichloromethane
26%
Chlorine compounds
25%
Aniline
25%
Organic acids
23%
Axles
23%
Silver nanoparticles
23%
Oligomers
23%
Raman spectroscopy
21%
Oxidation-Reduction
21%
Acetone
20%
Nuclear magnetic resonance
19%
Monomers
18%
Ethers
18%
Energy gap
18%
Polymerization
18%
Surface tension
16%
Conversion efficiency
16%
Precipitates
16%
Crystals
15%
X ray diffraction
15%
Spectroscopic ellipsometry
14%
Oxidation
14%
Molecular orbitals
13%
Phase separation
10%
Volatile organic compounds
9%
Emission spectroscopy
9%
Fluorophores
8%
Sensors
8%
Nuclear magnetic resonance spectroscopy
8%
Absorption spectroscopy
8%
Chemistry
Fullerene
58%
[3]rotaxane
52%
Vibronic Coupling
44%
C60 Fullerene
37%
Water Soluble
37%
Cyclopropane
34%
Naphthalene
29%
Solar Cell
27%
Electron Spin
26%
Macrocycle
23%
Application
22%
Surfactant
21%
Indene
20%
Volume
18%
Contrast Medium
18%
Rotaxane
16%
Triton X-100
16%
Anion
15%
Oligomer
12%
Antioxidant Agent
12%
Electron Acceptor
12%
Electron Donor
11%
Optical Property
11%
Block Like Crystal
10%
Isophthalamide
9%
Lowest Unoccupied Molecular Orbital
9%
Catenane
9%
Ellipsometry
8%
Electron Particle
8%
Resonance
8%
Carbon Atom
7%
Chloride
7%
Emission Spectroscopy
7%
Phase Separation
6%
Reaction Yield
6%
Absorption Spectroscopy
6%
Communication
5%
Voltage
5%
1H NMR Spectroscopy
5%
Medicine & Life Sciences
naphthalenediimide
69%
Rotaxanes
64%
fullerene C60
54%
Anions
34%
Electrons
12%
Chlorides
11%
Catenanes
10%
Spectrum Analysis
10%
Behavior Control
6%
Nanotechnology
6%
Psychology Transfer
6%
Proton Magnetic Resonance Spectroscopy
6%