Engineering & Materials Science
Iridium
91%
Heterojunctions
81%
Solar cells
65%
Butyric acid
35%
Pyridine
34%
Photocurrents
30%
Electrochemical properties
28%
Energy gap
23%
Esters
22%
Conversion efficiency
21%
Thermodynamic stability
21%
Short circuit currents
20%
Thermodynamic properties
19%
Wavelength
18%
Lighting
16%
Simulators
15%
Decomposition
14%
Networks (circuits)
11%
Temperature
8%
Physics & Astronomy
iridium
76%
heterojunctions
54%
solar cells
46%
phenyls
45%
butyric acid
26%
pyridines
26%
short circuits
24%
photovoltages
24%
esters
23%
simulators
20%
photocurrents
18%
thermal stability
18%
thermodynamic properties
16%
illumination
15%
decomposition
15%
rings
14%
wavelengths
9%
temperature
6%
Medicine & Life Sciences
Iridium
100%
(6,6)-phenyl C61-butyric acid methyl ester
48%
Hot Temperature
32%
pyridine
26%
Lighting
23%
Weight Loss
17%
Temperature
14%
Equipment and Supplies
12%
Chemical Compounds
Solar Cell
53%
Photovoltage
24%
Photovoltaic Effect
24%
Short Circuit
21%
Decomposition Temperature
20%
Photocurrent
19%
Illumination
18%
Methyl Ester
18%
Band Gap
15%
Wavelength
14%
Donor
14%
Thermal Stability
13%
Acid
7%