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Sputter-grown Si quantum dot nanostructures for tandem solar cells
Shujuan Huang
*
, Gavin Conibeer
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
›
peer-review
31
Citations (Scopus)
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Dive into the research topics of 'Sputter-grown Si quantum dot nanostructures for tandem solar cells'. Together they form a unique fingerprint.
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Chemistry
Tandem Solar Cell
100%
Quantum Dot
58%
Dielectric Material
43%
Solar Cell
42%
Nanomaterial
41%
Band Gap
24%
Electroluminescence
16%
Superlattice
16%
Doping Material
14%
Annealing
12%
Photoluminescence
12%
Voltage
11%
Conductivity
10%
Shape
10%
Engineering & Materials Science
Nanostructures
79%
Doping (additives)
72%
Solar cells
69%
Silicon
25%
Energy gap
24%
Quantum confinement
20%
Photoluminescence
17%
Electroluminescence
17%
Sputtering
13%
Open circuit voltage
13%
Annealing
10%
Impurities
10%
Engineers
7%
Costs
4%
Physics & Astronomy
quantum dots
50%
solar cells
48%
silicon
21%
matrices
14%
barrier layers
14%
p-n junctions
13%
engineers
13%
electroluminescence
13%
open circuit voltage
13%
sputtering
10%
costs
9%
photoluminescence
9%
conductivity
8%
impurities
8%
annealing
7%
electronics
6%