Engineering & Materials Science
Perovskite solar cells
100%
Dye-sensitized solar cells
98%
Polymer solar cells
60%
Perovskite
60%
Solar cells
55%
Charge transfer
45%
Electrodes
43%
Conversion efficiency
37%
Polymers
30%
Heterojunctions
27%
Organic solar cells
25%
Electrons
22%
Charge carriers
22%
Electron Transport
22%
Nanorods
21%
Transport Layer
21%
Dyes
20%
Nanoparticles
17%
Lithium
17%
Electrolytes
17%
Carbon
17%
Platinum
15%
Conjugated polymers
15%
Anodes
15%
Open circuit voltage
14%
Doping (additives)
14%
Butyric acid
14%
Tin oxides
14%
Composite materials
14%
Fullerenes
14%
Carbon nanofibers
13%
Current density
13%
Metals
12%
Photocurrents
12%
Lithium-ion batteries
12%
Esters
11%
Grain boundaries
11%
Excitons
11%
Passivation
11%
Short circuit currents
11%
Silver nanowires
11%
Nanofibers
10%
Nanosheets
10%
Ions
10%
Thin films
10%
Energy gap
10%
Indium
9%
Nanocrystals
9%
Crystallinity
9%
Costs
9%
Chemical Compounds
Solar Cell
42%
Counter Electrode
31%
Charge Transfer
22%
Liquid Film
20%
Hole Transport
16%
Electron Transport
15%
Voltage
14%
Charge Carrier
13%
Grain Boundary
12%
Short Circuit
12%
Nanorod
11%
Composite Material
11%
Additive
10%
Nanoparticle
10%
Anode
10%
Carbon Atom
10%
Methyl Ester
9%
Photocurrent
9%
Current Density
9%
Carbon Nanofibre
9%
Kelvin Probe Force Microscopy
9%
Behavior as Electrode
9%
Dye
8%
Donor
8%
Halide
8%
Energy
7%
Application
7%
Resistance
7%
Electron Particle
7%
Optoelectronics
7%
Illumination
6%
Metal
6%
Chemical Passivation
6%
Platinum
6%
Nanofiber
6%
Fiber
6%
Quantum Dot
5%
Atomic Force Microscopy
5%
Surface Potential
5%
Crystallinity
5%
Exciton
5%
Annealing
5%
Time
5%
Nanowire
5%
Energy Storage
5%
Solvent
5%
Hysteresis
5%
Band Gap
5%
Nanocrystal
5%
Fullerene
5%
Physics & Astronomy
solar cells
50%
dyes
17%
perovskites
16%
polymers
13%
performance
12%
heterojunctions
8%
phenyls
8%
photocurrents
7%
electrodes
6%
photovoltages
6%
esters
6%
nanoparticles
6%
engineering
6%
nanorods
5%
fiber lasers
5%
short circuit currents
5%
electrons
5%