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Opto-electrical surface engineering of wafer based c-Si solar cells
Andrea Ingenito
Photovoltaic Materials and Devices
Research output
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Thesis
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Dissertation (TU Delft)
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Dive into the research topics of 'Opto-electrical surface engineering of wafer based c-Si solar cells'. Together they form a unique fingerprint.
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INIS
surfaces
100%
silicon solar cells
100%
engineering
100%
efficiency
46%
trapping
46%
conversion
30%
applications
30%
texture
30%
management
23%
losses
23%
cost
23%
etching
23%
solutions
23%
increasing
15%
fabrication
15%
absorption
15%
silicon
15%
ions
15%
architecture
15%
climatic change
15%
cobalt phosphides
15%
doped materials
15%
solar cells
15%
emission
7%
design
7%
durability
7%
electricity
7%
wavelengths
7%
budgets
7%
carriers
7%
market
7%
light scattering
7%
recombination
7%
particles
7%
conferences
7%
coupling
7%
back contact solar cells
7%
toxicity
7%
simulation
7%
paints
7%
range
7%
processing
7%
passivation
7%
removal
7%
planets
7%
titanium oxides
7%
epitaxy
7%
defects
7%
devices
7%
carbon dioxide
7%
united nations
7%
stability
7%
tools
7%
ion implantation
7%
climates
7%
Engineering
Surface
100%
Crystalline Silicon Solar Cell
100%
Engineering
100%
Back Contact
53%
Application
30%
Buildings
23%
Conversion Efficiency
23%
Bragg Cell
23%
Integrated Photovoltaics
23%
Efficiency
15%
Process Flow
15%
Texturing
15%
Back Reflector
15%
Fabrication
15%
Solar Cell
15%
Front Side
15%
Architecture
15%
Module
15%
Internals
15%
Climate Change
15%
Multicrystalline Silicon
15%
Longer Term
7%
Term Stability
7%
Front Surface
7%
Contact Solar Cell
7%
Passivation
7%
Surface Field
7%
Surface Defect
7%
Wavelength
7%
Coming Year
7%
Enhancement
7%
Electrical Loss
7%
Processing Cost
7%
Optical Loss
7%
Light Absorption
7%
Loss
7%
Design
7%
High Efficiency
7%
Ion Implantation
7%
Direct Conversion
7%
Crystalline Silicon
7%
Reflectance
7%
Scattering
7%
Product
7%
Process Integration
7%
Etching Process
7%
Simulation Tool
7%
Keyphrases
Optoelectrical
100%
Crystalline Silicon Solar Cell
100%
Surface Engineering
100%
Management Techniques
27%
Novel Solutions
18%
Reactive Ion Etching
18%
COP21
18%
Process Flow
18%
Cell Efficiency
9%
Costing Methods
9%
Broadband Light
9%
Electrical Losses
9%
TiO2 Nanoparticles
9%
Contact Process
9%
Working Current
9%
Abundant Materials
9%
Bifacial Modules
9%
High Durability
9%
Surface Recombination
9%
Internal Reflectance
9%
Material-based
9%
Light Surfaces
9%
In Situ Doped
9%
Self-aligned Process
9%
Absorption Enhancement
9%
Coupled Scattering
9%
Light Incoupling
9%
PV Industry
9%
Optical Effects
9%
Almost Ideal
9%
Lightly Doped
9%
Non-toxic Materials
9%
PV Products
9%
Silicon Absorbers
9%
Alkaline Etching
9%
Defect-induced
9%
Thin Crystalline Silicon
9%
Direct Conversion
9%
Microtexture
9%
Front Surface Field
9%
Loss Analysis
9%
United Nations
9%
Continuous Improvement
9%
Sunlight
9%
Surface Defects
9%
Material Science
Crystalline Silicon Solar Cell
100%
Surface Engineering
100%
Solar Cell
23%
Photovoltaics
23%
Surface Texture
23%
Silicon
15%
Reactive Ion Etching
15%
Surface
15%
Materials
7%
Optical Loss
7%
Surface Passivation
7%
Titanium Dioxide
7%
Epitaxy
7%
Ion Implantation
7%
Surface Defect
7%
Devices
7%
Paint
7%
Crystalline Material
7%
Durability
7%
Particle
7%
Carbon Dioxide
7%